Your search keyword '"Desiderio G"' showing total 93 results

1. A luminescent thermosensitive coating for a non-invasive and in-situ study of thermal polarization in hollow fiber membranes

Author

Russo, F., Santoro, S., Galiano, F., Ursino, C., Avruscio, E., Di Nicolò, E., Desiderio, G., Lombardo, G., Criscuoli, A., and Figoli, A.

Published

2023

2. A non-invasive optical method for mapping temperature polarization in direct contact membrane distillation

Author

Santoro, S., Vidorreta, I.M., Sebastian, V., Moro, A., Coelhoso, I.M., Portugal, C.A.M., Lima, J.C., Desiderio, G., Lombardo, G., Drioli, E., Mallada, R., Crespo, J.G., Criscuoli, A., and Figoli, A.

Published

2017

3. Arsenic removal from natural contaminated groundwaters in Calabria Region (Italy) by nanofiltration

Author

Figoli, A., primary, Fuoco, I., additional, Apollaro, C., additional, Mancuso, R., additional, Desiderio, G., additional, De Rosa, R., additional, Gabriele, B., additional, and Criscuoli, A., additional

Published

2019

4. Biocompatible and biomimetic keratin capped Au nanoparticles enable the inactivation of mesophilic bacteria via photo-thermal therapy

Author

Annesi, F, Pane, A, Pezzi, L, Pagliusi, P, Losso, M, Stamile, B, Qualtieri, A, Desiderio, G, Contardi, M, Athanassiou, A, Perotto, G, De Sio, L, Annesi F., Pane A., Pezzi L., Pagliusi P., Losso M. A., Stamile B., Qualtieri A., Desiderio G., Contardi M., Athanassiou A., Perotto G., De Sio L., Annesi, F, Pane, A, Pezzi, L, Pagliusi, P, Losso, M, Stamile, B, Qualtieri, A, Desiderio, G, Contardi, M, Athanassiou, A, Perotto, G, De Sio, L, Annesi F., Pane A., Pezzi L., Pagliusi P., Losso M. A., Stamile B., Qualtieri A., Desiderio G., Contardi M., Athanassiou A., Perotto G., and De Sio L.

Abstract

We report on the synthesis, characterization, and application of biomimetic, spherical Au nanoparticles (AuNPs) coated with keratin (Ker-AuNPs). They are characterized in terms of morphological, spectral, and thermo-optical properties. Besides their excellent colloidal stability, Ker-AuNPs exhibit excellent biocompatibility. The latter is verified by performing viability assay experiments of a strain of Escherichia coli (E. coli) in the presence of Ker-AuNPs as a function of the incubation time. Ker-AuNPs do not affect the E. coli viability and proliferation, even at the highest concentration tested (C = 5.83*10−5 M). Photo-thermal assisted viability experiments are performed by setting the starting temperature at 37 °C, mimicking the normal human body temperature condition. They evidence the capability of the Ker-AuNPs to generate a temperature up to about 73 °C (an increase of 36 °C), thus reducing the viability of bacterial cells 3 order of magnitudes. We also conducted a theoretical analysis with an ad-hoc model that evidences an excellent agreement between theory and experiments. Ker-AuNPs represent a new generation of multifunctional nanotherapeutics, and they constitute a new opportunity in drug-free and minimally invasive biomedical applications.

Published

2021

5. The Amazonian shredder caddisfly Phylloicus elektoros Prather, 2003 (Trichoptera: Calamoceratidae): description of the larva and pupa.

Author

Campos, C. M., Desiderio, G. R., Martins, R. T., and Hamada, N.

Subjects

*CADDISFLIES, *PUPAE, *LARVAE, *AQUATIC insects, *ORGANIC compounds

Abstract

The Neotropical genus Phylloicus Müller, 1880 has 62 species distributed mainly in Latin America, 27 of which are recorded in Brazil. Larvae of the genus are shredders of organic matter, playing an important role in leaf decomposition in Neotropical streams. They are used in biological and ecological studies. However, only 26% of Phylloicus species have their immature stages described. In order to increase taxonomic knowledge of this genus, we describe and illustrate the larva and pupa of Phylloicus elektoros Prather, 2003. Association of adults of this species with their immature stages was performed through rearing larvae and pupae under laboratory conditions and using the metamorphotype method. The case of P. elektoros has 10–13 leaf fragments. Larvae can be recognized by the reddish-brown color of the head and the hastate-shaped submentum of the genae ventrally. Pupae have almost all of their hook plates with 3–4 pointed, stout hooks. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Amazonian shredder caddisfly Phylloicus elektoros Prather, 2003 (Trichoptera: Calamoceratidae): description of the larva and pupa

Author

Campos, C. M., primary, Desiderio, G. R., additional, Martins, R. T., additional, and Hamada, N., additional

Published

2021

7. Lo sconto bancario

Author

Antonucci, A, Appio C L, Bonfatti, S, Brozzetti, A, Camardi, C., Caputo Nassetti, F, Cardarelli, M C, Chessa, C, Corrias, P, Corvese, C G, De Angelis, L, Demuro, I, Desiderio, G, Di Brina, L, Inzitari, B, Lacaita, L, Lanotte, M, Lemma, V, Lener, R, Lucantoni, P, Manente, D, Martina, G, Moliterni, F, Motti, C, Nervi, A, Paracompo, M T, Pellegrini, M, Pistritto, M, Rispoli Farina, M, Russo, B, Sabbatelli, I, Sacco Ginevri, A, Sartori, F, Senigaglia, R, Sepe, M, Sicchiero, G, Sirena, P, Tola, M, Urbani, A, Alberto Urbani, Demuro, Ivan, Demuro, I (ORCID:0000-0002-7471-1353), Antonucci, A, Appio C L, Bonfatti, S, Brozzetti, A, Camardi, C., Caputo Nassetti, F, Cardarelli, M C, Chessa, C, Corrias, P, Corvese, C G, De Angelis, L, Demuro, I, Desiderio, G, Di Brina, L, Inzitari, B, Lacaita, L, Lanotte, M, Lemma, V, Lener, R, Lucantoni, P, Manente, D, Martina, G, Moliterni, F, Motti, C, Nervi, A, Paracompo, M T, Pellegrini, M, Pistritto, M, Rispoli Farina, M, Russo, B, Sabbatelli, I, Sacco Ginevri, A, Sartori, F, Senigaglia, R, Sepe, M, Sicchiero, G, Sirena, P, Tola, M, Urbani, A, Alberto Urbani, Demuro, Ivan, and Demuro, I (ORCID:0000-0002-7471-1353)

Abstract

Si analizza la disciplina del contratto di sconto bancario in tutti i suoi elementi costitutivi dando atto delle applicazioni nell'attività commerciale

Published

2020

8. Influence of Community Attachment and Personal Benefit on Residents’ Support for Tourism Activities in Emerging Island Destinations: The Case of Cape Verde

Author

Josiane Fernandes Neves Barbosa, Desiderio Gutiérrez Taño, and Francisco J. García Rodríguez

Subjects

History of scholarship and learning. The humanities, AZ20-999, Social Sciences

Abstract

Tourism has become an essential activity for the economies of developing island destinations. Few studies have focused on the influence of community attachment and personal benefits on residents’ perceptions of impacts and support for tourism in these areas. Moreover, many previous studies have yielded ambivalent results on the role of community attachment. In the present study, based on social exchange theory, we tested a theoretical model that analyses these aspects in a socio-economic context such as the Cape Verde archipelago with a strong impact of emigration, where community attachment or the personal benefits produced by tourism can help explain the level of residents’ support. Quantitative research was carried out through a survey of residents and 518 valid responses were obtained. The model was tested using structural equations with PLS. The results suggest that personal benefits influence both directly and indirectly, through perceptions of tourism impacts, and residents’ support for tourism. It is also found that community attachment influences residents’ perceptions of tourism impacts. Theoretical and practical implications of the results obtained are also discussed.

Published

2024

9. Ethnocentrism and place identity in the consumption of local products

Author

Edgar J. Sabina del Castillo, Ricardo J. Díaz Armas, and Desiderio Gutiérrez Taño

Subjects

Attitude towards local products, Consumer ethnocentrism, Place identity, Moderated mediation model, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Research on the consumption of local products is essential to promote sustainability, boost local economies, and preserve cultural identity. Although a positive relationship has been demonstrated between attitude towards local products and consumption determinants, the role of the former as a mediator has not been sufficiently explored. This study examines how the attitude towards local products mediates between consumer ethnocentrism and consumption intention, as well as between place identity and consumption intention. A total of 1325 wine and cheese consumers in the Canary Islands were surveyed using a moderated mediation model, applying PLS-SEM. The results indicate that attitude towards local products mediates the aforementioned relationships but does not moderate them according to the type of local product. Consequently, marketing strategies should focus on the emotional and cultural connection that consumers establish with local products, highlighting their value in terms of identity and belonging.

Published

2024

10. Group I Paks support muscle regeneration and counteract cancer-associated muscle atrophy

Author

Cerquone Perpetuini, A, Re Cecconi, Ad, Chiappa, M, Martinelli, Gb, Fuoco, C, Desiderio, G, Castagnoli, L, Gargioli, C, Piccirillo, R, and Cesareni, G

Subjects

Male, Atrophy, Cachexia, Muscle, Paks, Regeneration, Satellite Cells, Skeletal Muscle, Muscle Fibers, Skeletal, Gene Expression, p38 Mitogen-Activated Protein Kinases, Myoblasts, Mice, Cell Line, Tumor, Neoplasms, Animals, Phosphorylation, Muscle, Skeletal, Cell Proliferation, Cell Differentiation, Original Articles, Settore BIO/18 - Genetica, Disease Models, Animal, Muscular Atrophy, p21-Activated Kinases, Cytokines, Myogenin, Original Article

Abstract

Background Skeletal muscle is characterized by an efficient regeneration potential that is often impaired during myopathies. Understanding the molecular players involved in muscle homeostasis and regeneration could help to find new therapies against muscle degenerative disorders. Previous studies revealed that the Ser/Thr kinase p21 protein‐activated kinase 1 (Pak1) was specifically down‐regulated in the atrophying gastrocnemius of Yoshida hepatoma‐bearing rats. In this study, we evaluated the role of group I Paks during cancer‐related atrophy and muscle regeneration. Methods We examined Pak1 expression levels in the mouse Tibialis Anterior muscles during cancer cachexia induced by grafting colon adenocarcinoma C26 cells and in vitro by dexamethasone treatment. We investigated whether the overexpression of Pak1 counteracts muscle wasting in C26‐bearing mice and in vitro also during interleukin‐6 (IL6)‐induced or dexamethasone‐induced C2C12 atrophy. Moreover, we analysed the involvement of group I Paks on myogenic differentiation in vivo and in vitro using the group I chemical inhibitor IPA‐3. Results We found that Pak1 expression levels are reduced during cancer‐induced cachexia in the Tibialis Anterior muscles of colon adenocarcinoma C26‐bearing mice and in vitro during dexamethasone‐induced myotube atrophy. Electroporation of muscles of C26‐bearing mice with plasmids directing the synthesis of PAK1 preserves fiber size in cachectic muscles by restraining the expression of atrogin‐1 and MuRF1 and possibly by inducing myogenin expression. Consistently, the overexpression of PAK1 reduces the dexamethasone‐induced expression of MuRF1 in myotubes and increases the phospho‐FOXO3/FOXO3 ratio. Interestingly, the ectopic expression of PAK1 counteracts atrophy in vitro by restraining the IL6‐Stat3 signalling pathway measured in luciferase‐based assays and by reducing rates of protein degradation in atrophying myotubes exposed to IL6. On the other hand, we observed that the inhibition of group I Paks has no effect on myotube atrophy in vitro and is associated with impaired muscle regeneration in vivo and in vitro. In fact, we found that mice treated with the group I inhibitor IPA‐3 display a delayed recovery from cardiotoxin‐induced muscle injury. This is consistent with in vitro experiments showing that IPA‐3 impairs myogenin expression and myotube formation in vessel‐associated myogenic progenitors, C2C12 myoblasts, and satellite cells. Finally, we observed that IPA‐3 reduces p38α/β phosphorylation that is required to proceed through various stages of satellite cells differentiation: activation, asymmetric division, and ultimately myotube formation. Conclusions Our data provide novel evidence that is consistent with group I Paks playing a central role in the regulation of muscle homeostasis, atrophy and myogenesis.

Published

2017

11. Are Local Product Consumption Habits Influenced by Extreme Situations? A Case Study of Wine During the COVID-19 Pandemic

Author

Edgar J. Sabina del Castillo, Ricardo J. Díaz Armas, and Desiderio Gutiérrez Taño

Subjects

History of scholarship and learning. The humanities, AZ20-999, Social Sciences

Abstract

This work looks into the effects that extreme situations have on the consumption of local products. The COVID-19 pandemic has led to significant changes in consumer behavior where food and especially local produce are concerned. To explain these changes, we used the Goal-Framing Theory as an overarching framework for other approaches such as the Theory of Planned Behavior and the ABC Model, including the effect of consumer resilience to adversity. The research applied to local wine and involved a sample of 762 consumers from the Canary Islands. The hypotheses were tested using the PLS structural equation technique. The main results confirm that there is a change in behavior toward greater consumption of local wine due to the impact of said pandemic, mainly motivated by consumer resilience to adversity and attitude toward the local product, also influencing the personal norm.

Published

2023

12. Phosphorylation and Alternative Splicing of MEF2C, a Dual Switch Function in Muscle Regeneration

Author

Riuzzi, F., Beccafico, S., Sorci, G., Donato, R., Baruffaldi, F., Badodi, S., De Feo, L., Ganassi, M., Battini, R., Imbriano, C., Nicoletti, C., Musarò, A., Buckingham, M., Montarras, D., Molinari, S., Marroncelli, N., Noviello, C., Di Francescantonio, S., Consalvi, S., Saccone, V., Puri, P. L., Olson, E. N., Adamo, S., Moresi, V., Spada, F., Fuoco, C., Pirrò, S., Reggio, A., Paoluzi, S., Gargioli, C., Castagnoli, L., Cesareni, G., Basile, V., Dolfini, D., Ricci, L., Mantovani, R., Mancinelli, R., Guarnieri, S., Di Filippo, E.S., Pietrangelo, T., Fulle, S., Giordani, L., Le Grand, F., Giacomazzi, G., Quattrocelli, M., Sampaolesi, M., Serena, E., Zatti, S., Mattei, N., Vetralla, M., Giulitti, S., Selmin, G., Torchio, E., Vitiello, L., Elvassore, N., Marinkovic, M., Pavlidou, T., Ziraldo, G., Taccola, G., Coslovich, T., Lorenzon, P., Sciancalepore, M., Marcucci, L., Washio, T., Yanagida, T., Niewiadomski, P., Gawor, M., Bernadzki, K., Jóźwiak, J., Rojek, K., Rędowicz, M. Jolanta, Prószyński, T., Boncompagni, S., Michelucci, A., Pietrangelo, L., Dirksen, R.T., Protasi, F., Pisu, S., Rizzuto, E., Del Prete, Z., Nogara, L., Naber, N., Pate, E., Canton, M., Cooke, R., Reggiani, C., Bianco, P., Melli, L., Falorsi, G., Pertici, I., Coceano, G., Cojoc, D., Lombardi, V., Pierucci, F., Frati, A., Battistini, C., Bruzzone, E., Matteini, F., Penna, F., Costelli, P., Meacci, E., Passafaro, M., Madaro, L., Schirone, L., Berghella, L., Puri, P.L., Pin, F., Ballarò, R., Costamagna, D., Martinelli, G.B., Olivari, D., Talamini, L., Lecker, S.H., Ottoboni, L., Resovi, A., Giavazzi, R., Cervo, L., Piccirillo, R., Martinelli, G. B., Re Cecconi, A., Cerruti, F., Cascio, P., Bach, M. Beltrà, Guttridge, D.C., Giovarelli, M., Touvier, T., Clementi, E., DePalma, C., Pescatore, F., Albiero, M., Lutz, C., Schiaffino, S., Sandri, M., Conte, M., Armani, A., Franceschi, C., Salvioli, S., Petrilli, L.L., Codenotti, S., Faggi, F., Poliani, P. L., Cominelli, M., Chiarelli, N., Colombi, M., Vezzoli, M., Monti, E., Bono, F., Tulipano, G., Fiorentini, C., Zanola, A., Gavazzi, S., Lo, H. P., Parton, R. G., Keller, C., Fanzani, A., Mitola, S., Ronca, R., Bouche, M., Poliani, L., Longhena, F., Salani, B., Maggi, D., Kravic, B., Harbauer, A. B., Simeone, L., Kaiser, T., Romanello, V., Buttgereit, A., Neuhuber, W., Straubinger, M., Heuss, D., Rudolf, R., Friedrich, O., Meisinger, C., Hashemolhosseini, S., Huraskin, D., Eiber, N., Reichel, M., Zidek, L., Bernkopf, D., von Maltzahn, J., Behrens, J., Gherardi, G., Mammucari, C., Zamparo, I., Raffaello, A., Chemello, F., Cagnin, S., Braga, A., Zanin, S., Pallafacchina, G., Zentilin, L., De Stefani, D., Lanfranchi, G., Rizzuto, R., Perpetuini, A. Cerquone, Desiderio, G., Chrisam, M., Castagnaro, S., Spizzotin, M., Braghetta, P., Grumati, P., Cecconi, F., Bonaldo, P., Filomena, M.C., Yamamoto, D.L., Mastrototaro, G., Carullo, P., Caremani, M., Lieber, R., Nigro, V., Linari, M., Chen, J., Bang, M.L, Lo Verso, F., Soares, R., Albiero1, M., Guescini, M., Pelosi, L., Coggi, A., Forcina, L., Legnini, I., Di Timoteo, G., Rossi, F., Briganti, F., Sthandier, O., Morlando, M., Fatica, A., Andronache, A., Wade, M., Rajewsky, N., Bozzoni, I., Testa, S., Bianconi, V., Petrilli, L. L., Bernardini, S., Cannata, S., Torcinaro, A., De Santa, F., De Marco, A., Hamilton, S. L., Paolini, C., Canato, M., Salvadori, L., Sagheddu, R., Chiappalupi, S., Di Fonso, A., D’Onofrio, L., Camps, J., Carotenuto, F., Minieri, M., Di Nardo, P., Pigna, E., Coletti, D., Cescon, M., Gattazzo, F., Sabatelli, P., Megighian, A., Sanchez-Riera, C., Lahm, A., Guido, L., Cipriano, A., Tita, R., Bisceglie, L., Ballarino, M., Martini, M., Dobrowolny, G., Del Re, V., Spinozzi, S., Gamberucci, A., Barone, V., Sorrentino1, V., Sandonà, M., Tucciarone, L., Marsolier, J., Patissier, C., Gicquel, E., Adjali, O., Richard, I., Giambruno, R., Micheloni, S., Ferri, G., Jothi, M., Cabianca, D. S., Huber, J., Warner, S., and Gabellini, D.

Subjects

MyoNews, Article

Abstract

Muscle regeneration is a multistep process that is regulated by a restricted number of transcription factors whose activity is modulated at multiple levels. However, how different layers of regulation are coordinated to promote adult myogenesis is not yet understood. Here we show that the MEF2C transcription factor controls multiple steps of muscle regeneration, including myogenic progression of satellite cells and muscle maturation of newly generated myofibers, exhibiting multiple functions that depend on alternative splicing and post-translational modifications. Inclusion of the α1 exon in Mef2c transcripts is upregulated in proliferating mouse satellite cells and in the early phases of muscle regeneration. The encoded MEF2Cα1 isoform stimulates expansion of primary myoblasts ex vivo and in vivo. The pro-proliferative activity of MEF2C is mediated by phosphorylation of two phosphoserines located in exon α1. Subsequent terminal differentiation and growth of newly formed myofibers are promoted by dephosphorylated MEF2Cα1 and MEF2Cα2. Our results thus reveal an important role for regulatory interactions between alternative splicing and post translational modifications of a single transcription factor in the control of the multilayered regulatory programs required for adult myogenesis., Skeletal muscle exhibits a high capacity to regenerate, mainly due to the ability of satellite cells to replicate and differentiate in response to stimuli. Epigenetic control is effective at multiple steps of this process. The chromatin remodeling factor, HDAC4, is up-regulated in skeletal muscle upon injury, suggesting a role for this protein in muscle regeneration. With the aim to elucidate the role of HDAC4 in satellite cells and skeletal muscle regeneration, we generated inducible mice lacking HDAC4 in Pax7+ cells (HDAC4 KO mice). Despite having similar amount of satellite cells, HDAC4 KO mice show impaired muscle regeneration in vivo, and compromised satellite cell proliferation and differentiation in vitro. HDAC4 deletion in satellite cells is sufficient to block their differentiation, not acting via soluble factors, and possibly through the inhibition of Pax7 expression. The molecular mechanisms underling compromised muscle regeneration in HDAC4 KO mice are currently under investigation. All together, these data delineate the importance of HDAC4 in satellite cell differentiation and suggest a protective role of HDAC4 in response to muscle damage., The adult skeletal muscle has the ability to self-renew and repair in response to increased workload, stress conditions or limited damage. These properties rely on an array of different progenitor cell populations. While satellite cells play a central role in muscle regeneration, a variety of other mononuclear progenitor cells, either resident in the muscle or recruited from the blood stream, contribute to the complex crosstalk leading to muscle repair. In pathological conditions or with aging, the relative abundance and the activation stage of the different cell populations in the myogenic stem cell compartment vary. The ability to probe the heterogeneity and the dynamic of the muscle tissue is fundamental to achieve a complete understanding of muscle regeneration. To this end we have invested in a novel approach exploiting mass cytometry technology (CyTOF2 platform). CyTOF technology enables probing single cell events, by labelling intracellular and cell surface markers with up to 40 antibodies tagged with stable heavy metal isotopes. The sharp mass peaks obtained by TOF inductively coupled plasma mass spectrometry eliminates the problems of spectra overlap typical of fluorescence based flow cytometry. I will describe the panel of tagged antibodies that I have developed to characterize the heterogeneous muscle mononuclear cell populations and the advantages and limitations of mass cytometry. In addition I will present preliminary data on the dynamic of cell populations under different conditions and stimuli., The mechanisms that regulate skeletal muscle development involve the coordinated activity of transcription factors (TFs) and a precise timing of gene expression patterns. NF-Y is a heterotrimeric TF with a pioneer role in the transcriptional and epigenetic regulation of promoters containing the CCAAT-box. NF-Y activates the expression of various genes related to the cell cycle, particularly genes of the G2/M phase. NF-YA, the regulatory DNA-binding subunit of the complex, is expressed in proliferating myoblasts and down-regulated during terminal differentiation. The NF-YA gene encodes for two alternatively spliced isoforms, namely NF-YAs and NF-YAl, which are not functionally identical. Using mouse C2C12 cells, we provide evidence of a different role for NF-YA variants in the myogenic program. While NF-YAs enhances myoblasts proliferation, NF-YAl boosts their differentiation by up-regulating the transcription of novel target genes, among which Mef2D, Sixs and Cdkn1C, which are known to be involved in the differentiation program. We further demonstrate that NF-YA is expressed in resident stem cells (SCs) and the two isoforms are transcribed at different levels during SCs activation and differentiation. The inhibition of NF-Y activity impairs both proliferation and differentiation of SCs and the overexpression of the two NF-YA isoforms differentially affects their fate., Sarcopenia is the age-related loss of muscle leading to loss of muscle power, which in the end results in frailty and disability. At molecular level, sarcopenia is characterized by insufficient antioxidant defense mechanism, increased oxidative stress and altered function of respiratory chain. It has been hypothesized that the accumulation of oxidative stress is also related to an impaired regeneration cooperating to the atrophic state that characterizes muscle ageing. To the purpose, we investigated the myogenic process in satellite cells, the skeletal muscle stem cells, as myoblasts and myotubes collected by human Vastus Lateralis skeletal muscle of young and old subjects through needle-biopsies. To measure both the O2- and ROS level we used NBT and H2DCF-DA assays revealing higher concentration in elderly myoblasts compared to young ones. To evaluate if mitochondria are damaged by ROS we measured mitochondrial transmembrane potential after an oxidant insult as H2O2. We found that in elderly myoblasts mitochondrial transmembrane potential decreases much more than in young ones probably due to their lower endogenous antioxidant abilities. Specifically, MitoSOX™ Red reagent for direct measurements of O2- in mitochondria revealed that in elderly myoblasts O2- production is increased respect to young ones and the result is worsened in myotubes. Furthermore, the upregulation of the atrophic and ubiquitin-proteasome pathways together with a dysregulation of the proliferative one revealed an alteration at gene expression level in elderly myoblasts vs young ones. Overall our data confirm that oxidative stress impairs muscle regeneration in elderly subjects., Skeletal muscle is a complex structure endowed with extreme regenerative capability; this ability relies on the orchestrated interplay between different muscle populations that reside within the tissue. Functional changes occurring at the microenvironmental level during aging or pathological conditions however interfere with this ability leading to fibrosis and fat infiltration. Despite a large body of work still we are far from completely understanding these changes; even when genetic cause is known (e.g. Duchenne muscular Dystrophy) we are still unable to pin-point the steps that lead from the molecular cause to the outcome of the disease. The main reason for this bottleneck is that our knowledge has been limited so far by the lack of technical tools to dissect the heterogeneity of these populations. The use of bulk-scale methods able only to provide averaged information has frustrated our effort to characterize those pathological changes leaving those dysfunctional, disease-specific subpopulation to remain hidden within the bulk. Here we present a novel approach based on single cell mass spectrometry to study the populations that reside in the muscle. Using Cytof technology we would profile at single cell resolution the muscle resident populations during aging and in diseased state. This would allow us to identify dysfunctional subsets involved in the regeneration defect. This study would not only shed light on the mechanisms underpinning muscle regeneration but would provide a solid ground for the future identification of diagnostic biomarkers through the study of disease specific subpopulations., Hypertrophy and dystrophy are distinct, yet linked processes that remodel both skeletal and cardiac muscles in physiological or pathological settings. Not only is hypertrophy important during development, but it also plays major role upon acute or chronic damage. Muscular dystrophies (MDs) cause progressive degeneration and loss of functionality in both striated muscle types. In MD patients and animal models, an initial hypertrophic response occurs, with contrasting effects on skeletal and cardiac muscle. Recently it has been established that muscle fibers secrete exosomes, whose cargo acts as endocrine signals during myogenesis. We aim at deciphering the exosomal information guiding hypertrophy/dystrophy in both muscle in order to establish a new strategy based on miRNA modulation for novel myogenic regeneration. We performed ex vivo exosome analysis comparing age-matched WT, Sgcb-null (dystrophic), and MAGIC-F1+/+ (hypertrophic) mice. We detected several differentially regulated miRNAs, virtually relevant for striated muscle remodeling and de-/re-generation. We have preliminary results on the effects of ex vivo exosomes on cell types relevant for skeletal and cardiac muscle analysis. Moreover we are currently investigating the uptake routes of exosomes in both muscle types. In the future we will rely on miRNA-sequencing of ex vivo exosomes, to identify key mRNA/miRNA distinctive signatures by means of an high-throughput approach and place our ongoing results into a genome-wide setting. As a final goal, the hypertrophic/dystrophic signatures and tissue-specific information will further be integrated to establish skeletal- and cardiac-enhancing cocktails to selectively improve the regenerative outcome of patient-specific progenitors in vivo, into a xenograft-permissive murine model., Duchenne muscular dystrophy (DMD) is the most common, lethal, inherited myopathy, which results in muscle degeneration. In this work, we aimed at developing an innovative 3D satellite cell niche derived from human induced pluripotent stem cells (hiPSC) within their native sublaminal position in an engineered human skeletal muscle myofiber. One of the main limitations of cell therapy for DMD is the high number of myogenic cells required and the efficiency of engraftment in vivo. hiPSC ensure large amount of cells and the possibility of derive patient-specific cells, but obtaining myogenic cells in vitro from hiPSC is difficult and the yield is low. In this work, we induced the myogenic differentiation of hiPSC through multiple transfection of modified mRNA of the master transcription factors MYOD, PAX3 and PAX7. To this aim, we exploited a microfluidic platform that allows the downscaling of the process for performing cost-effective, multiparametric and highthroughput experimental investigations. We optimized the protocol for transfecting hiPSC colonies leading to a transfection efficiency of 60% per single transfection. After multiple transfections, exogenous MyoD is expressed in 95% of the cells and endogenous expression of desmin and myosin heavy chain was observed (4 days after the last transfection). Ongoing experiments are extending these results to Pax3 and Pax7. Another key factor for a successful cell therapy is the cell delivery. In this sight, we developed a 3D poly-acrilammide/hyaluronic acid hydrogel (HY) scaffold and optimized its biochemical and mechanical properties in order to sustain the myogenic differentiation of human primary myoblasts and to reproduce the protective microenvironment of the satellite cell niche. The scaffold was designed in order to control the cell topology: 3D parallel micro-channels (80-160 μm in diameter, 10-15 mm long) were produced inside the scaffold and functionalized with ECM proteins. To reproduce the physiological mechanobiology, HY chemical composition was optimized in order to obtain a soft scaffold with physiological elastic modulus, E≈12±4kPa. Human primary myoblasts were used to optimize the seeding, culture and differentiation protocols. At 10 days, we observed tightly packed myotubes bundles, expressing myosin heavy chain, α-actinin and dystrophin. We are now integrating hESC-derived myoblast and we observed differentiation into myoubes and expression of myosin heavy chai, α-actinin and desmin.We hypothesize that such engineered niche will provide, upon in vivo implantation, satellite cells able to regenerate the damaged muscle of DMD patients, and reconstitute the stem cell pool for future muscle damages. On the other hand, our 3D niche could be exploited as an in vitro tool to study the biology of the niche itself, the mechanism of the pathology or as a tool for testing new drugs and therapies in a personalized manner., Skeletal muscle regeneration is mediated by a complex crosstalk between various resident mononucleated cell populations. These cell interactions after fiber damage or stress are finely regulated in time and space. Satellite cells, skeletal muscle stem cells, play a pivotal role during regeneration being the main source of new myoblasts. However, their activation, proliferation and differentiation relies on environmental cues shaped by cell populations such as macrophages, pericytes, and fibro-adipogenic progenitors (FAPs). FAPs have a leading role in the regeneration process since they promote myotube formation by positively regulating satellite cell differentiation. However, in pathological conditions, such as muscular dystropies, these cells play a negative role since they are responsible for fibrosis and fatty tissue accumulation. In in vitro experiments we have observed an improvement in the maturation of myotubes derived from satellite cells, when co-cultured with FAPs. Furthermore, we have also observed that direct contact of these two cell populations inhibits adipogenic differentiation of FAPs while in the transwell system this inhibition does not occur. Even though there is a clear interaction between these two populations, it has not been thoroughly characterized yet. Thus exploiting Luminex technology we are aiming at identifying molecules affecting the differentiation process of these two cell types focusing on cytokines, chemokines and growth factors. In addition we are planning to include in these studies macrophages and pericytes in order to obtain a more complete picture of molecular networks involved in myogenesis and finally build a cell-cell interaction model of skeletal muscle regeneration., Electrical stimulation (ES) of skeletal muscle has been proposed to mimic the beneficial effects of physical training and to counteract the muscle atrophy associated with reduced motor activity. If properly used, it can be a potent tool to increase strength and endurance in patients affected by muscle weakness due to ageing or prolonged debilitating illness. However, classical ES exhibits several limitations, such as the unpleasant symptoms due to pulse strength and the occurrence of muscle fatigue. The most appropriate parameters of stimulation, such as intensity, frequency and pulse duration, are still under debate. Field ESs were given to mouse skeletal myotubes in culture. Changes in membrane potential were detected by perforated patch recordings and calcium dynamics was followed using fluorescent indicators. Different patterns of ES were tested. Tetanic high frequency stimulation at 45 Hz induced voltage changes invariably characterized by failures, and discontinuous firing preceding the complete disappearance of the electrical activity, whereas low-frequency stimulations at 1 Hz more efficiently elicited single action potentials. An innovative “noisy” waveform ES pattern was tested, obtained from a segment of electromyogram recording, sampled from a limb muscle of adult volunteers during the execution of a rhythmic motor activity. Using half of the intensity of stimulation employed for more stereotyped ES patterns, it was found to be more efficient in inducing repetitive cell firing, calcium transients and cell twitching. We suggest this approach as a new strategy for the design of new electrical devices able to provide a therapy option for injured muscles in human patients., Muscle contraction is generated by cyclical interactions of myosin heads with actin filaments to form the actomyosin complex. The stable configurations of the actomyosin complex have been described in detail, but whether in vivo, at physiological temperatures, these configurations are fixed to the ones observed in cryomicroscopy (at low temperature) or undergo thermal oscillations is unknown and not generally considered in mathematical modeling. By comparing three mathematical models, we analyze how this intrinsic property of the actomyosin complex affects muscle contraction at three level; namely, single cross-bridge, single fiber and organ levels, in a ceteris paribus analysis. We observed that state fluctuations allow the lever arm of myosin to easily and dynamically explore all possible minima in the energy landscape, generating several backward and forward jumps between states during the lifetime of the actomyosin complex, whereas the rigid case is characterized by fewer force generating events. Therefore, dynamical oscillations enable an efficient contraction mechanism, in which a higher force is sustained by fewer attached cross-bridges., Mammalian neuromuscular junctions (NMJs) undergo a postnatal topological transformation from a simple oval plaque to a complex branch-shaped structure often called a “pretzel”. Although abnormalities in NMJ maturation and/or maintenance are frequently observed in neuromuscular disorders, such as congenital myasthenic syndromes (CMSs), the mechanisms that govern synaptic developmental remodeling are poorly understood. It was reported that myotubes, when cultured aneurally on laminin-coated surfaces, form complex postsynaptic machinery, which resembles that at the NMJ. Interestingly, these assemblies of postsynaptic machinery undergo similar stages in developmental remodeling from “plaques” to “pretzels” as those formed in vivo. We have recently demonstrated that podosomes, actin-rich adhesive organelles, promote the remodeling process in cultured myotubes and showed a key role of one podosome component, Amotl2. We now provide evidence that several other known podosome-associated proteins are present at the NMJ in vivo and are located to the sites of synaptic remodeling. Additionally, we identified proteins that interact with Amotl2 in muscle cells. We show that two of them: Rassf8 and Homer1, together with other podosome components, are concentrated at postsynaptic areas of NMJs in the indentations between the AChR-rich branches. Our results provide further support for the hypothesis that podosome-like organelles are involved in synapse remodeling and that Rassf8 and Homer1 may regulate this process., Depletion of calcium (Ca2+) from intracellular stores (endoplasmic reticulum, ER), triggers Ca2+ entry across the plasma membrane, a process known as store-operated Ca2+ entry (SOCE). SOCE is mediated by the interaction between STIM1 (stromal interaction molecule 1), which functions as the Ca2+ sensor in the ER, and Ca2+ permeable Orai1 channels in the external membrane. In skeletal muscle, SOCE is the primary mechanism of Ca2+ entry during repetitive activity, a crucial step that prevents/delays fatigue. Despite the importance of this mechanism for proper muscle function during sustained activity, the subcellular sites for SOCE in skeletal fibers have not been identified. Here we show that prolonged muscle activity (treadmill running in mice) drives the formation of previously unidentified intracellular junctions between the sarcoplasmic reticulum (SR) and extensions of the external transverse tubule (TT) membrane. The activity-dependent formation of these unique SR-TT junctions reflects a striking and unexpected remodeling of the existing sarcotubular system at the I band of the sarcomere. Using immunochemistry and immuno-gold labeling we also demonstrate that these newly formed, activity-driven junctions contain the molecular machinery known to mediate SOCE in muscle: STIM1 Ca2+ sensor proteins in the SR, already present in the I band in control conditions, and Ca2+- permeable Orai1 channels, which move into the I band with TTs during prolonged muscle activity. Thus, we refer to these junctions as Ca2+ Entry Units, the first new, molecularly defined subcellular structure in skeletal muscle in over 30 years., The loss of connection between muscle and nerve is a crucial biological mechanism involved in Amyotrophic Lateral Sclerosis (ALS), a neurodegenerative disease associated with motor neuron degeneration, muscle atrophy and paralysis [1]. Recent studies showed the primary role of the skeletal muscle in the pathogenesis of the disease, pointing out the key role of the communication between muscle and nerve. In this context, we developed a protocol to measure, ex vivo, the neuromuscular junction (NMJ) functionality [2]. The experimental technique is based on the comparison between the muscle contractile response elicited by membrane stimulation and the response evoked by nerve stimulation. Since this latter stimulation bypasses the neuronal signalling, any difference between the two responses may be related to NMJ alterations. In particular, we started studying the Soleus-sciatic nerve preparation of one of the most studied ALS animal models, the SOD1G93A mouse [3], with the particular aim of following the pathology’s progress. We observed that the first functional alterations begin at 90 days of age, with an intrinsic damage of the muscle and defects in NMJ functionality who increase until the end-stage of the disease. Subsequently, we approached the study of the MLC/SOD1G93A mouse model, in which superoxyde dismutase-1 mutated gene is expressed exclusively in the skeletal muscle [4]. Our preliminary results highlighted defects in soleus muscle and NMJs functionality in MLC/SOD1G93A mouse model, compared to the wild type, suggesting a direct muscle impairment. Further analysis on this model will provide useful information about the NMJ alterations directly related to oxidative stress on skeletal muscles., Myosin is an abundant ATPase protein. It is estimated that 10% of muscle tissue weight is myosin. Due to its abundance, myosin can be a good target to raise basal metabolic rate in animals. A new low-ATP-consumption state of myosin has recently been proposed (1, 2). This new state has been called the “Super Relaxed State (SRX)” of Myosin. Structural evidence for the SRX state have recently been published showing a close complex formed by the two-myosin heads (3). It is characterized by an ATPase time constant in the order of 300 seconds versus the 15 seconds for the so-called “Disordered Relax State” (DRX)(1,2). The idea is that behind that large number of “dormant” ATPases, there is the key to raise basal metabolism in a physiological way. The amount of myosin in the SRX state is estimated to be approximately 60% of the total. Switching of the myosin heads from the SRX state to the DRX state is regulated by phosphorylation in a cooperativeness-driven-equilibrium. Controlling this equilibrium may lead to an increase in basal metabolism that would consume an additional energy of up to 1000 Kcal/day. We studied the effect of several Regulatory Light Chain mutants on the SRX state and we applied this information to the development of a high throughput screen. We are searching a molecule that is able to destabilize the SRX state in skeletal muscle fibers. We screened 2000 compound of an FDA approved library. Potential lead compounds will be discussed, The muscle cell is a biological machine where steady force and shortening are generated by arrays of the motor protein myosin II pulling the actin filament towards the centre of the sarcomere (the ~2 μm long structural unit of muscle) during cyclical ATP-driven interactions. The fraction of the time of the ATP hydrolysis cycle that myosin II spends attached to actin depends on the sarcomere load and at low load can be as small as 0.02. The array-type arrangement of the motors enhances and makes steady the production of force and shortening, but has so far limited the investigation of mechanics, energetics and structural dynamics of this collective motor to top-down approaches, such as single-cell mechanics and X-ray diffraction (Piazzesi et al. Cell 131:784-795, 2007). The laser trap technique in the Three Bead Assay (TBA) configuration allowed the recording of single actin-myosin interaction in vitro, but only when the duration of attachment was increased by reducing the ATP concentration to a few tens of micromolar (two orders of magnitude lower than that in situ in physiological conditions). In this project we use an alternative approach consisting in assembling molecular motor proteins on a nanostructured support to generate a synthetic sarcomere-scale machine, the mechanical output of which is measured with a double laser optical tweezers apparatus (Bianco et al. Biophys. J. 101:866-874, 2011). The shape, the material and the coating of the support carrying the motor array have been optimised using a preliminary version of the machine consisting of an ensemble of motor proteins randomly adsorbed on a flat surface and brought to interact with an actin filament attached to the trapped bead with the correct polarity. Tests on the density and the disposition of the myosin motors on the surface have been done using AFM. The most reproducible results have been obtained when the support for the motor ensemble is the lateral surface of a chemically etched single mode optical fibre (diameter 4 µm). In solution with physiological [ATP] (2 mM), the ensemble drives 350 nm of actin filament sliding developing a steady force of 50 pN. Supported by Italian Institute of Technology-SEED, project MYOMAC (Genova) and PRIN-MIUR, Italy., Skeletal muscle atrophy is caused by several and heterogeneous conditions, such as cancer (cachexia), neuromuscular disorders and aging. In most types of skeletal muscle atrophy overall rates of protein synthesis are suppressed, protein degradation is consistently elevated and atrogenes, such as the ubiquitin ligase Atrogin-1/MAFbx, are up-regulated. Sphingolipids represent a class of bioactive molecules capable of modulating the destiny of many cell types, including skeletal muscle cells. In particular, we and others have shown that sphingosine 1-phosphate (S1P), formed by sphingosine kinase (SphK), is able to act as trophic and morphogenic factor in myoblasts. Here, we report that the inhibition of SphK1 by specific gene silencing or pharmacological inhibition drastically reduced myotube size and myonuclei number, and increased Atrogin-1/MAFbx expression. Notably, the atrophic phenotype of C2C12 myotubes treated with dexamethasone and of muscle fibers obtained from cachectic mice inoculated with C26 adenocarcinoma, was characterized by increased expression of Atrogin-1/MAFbx and reduced levels of active SphK1. In addition, we found that C2C12 muscle cell atrophy was accomplished by changes in the pattern of expression of S1P receptor subtypes (S1PRs) and treatment of myotubes with S1P was able to prevent Dexa-induced atrophic marker expression. Finally, by using specific S1PR agonists and antagonists, we extended the investigation on the role played by S1PRs in the control of Atrogin-1/MAFbx expression. Altogether, these findings provide the first evidence that S1P/SphK1/S1PR axis acts as a molecular regulator of skeletal muscle atrophy, thereby representing a new possible target for therapy in many physiological and pathological conditions., Skeletal muscle is a dynamic tissue that can respond to external stimuli through both anabolic and catabolic processes. In a variety of conditions, including immobilization, AIDS and neuromuscular disorders, skeletal muscle mass is decreased (atrophy). Upon denervation or disuse, skeletal muscle undergoes atrophy, leading to reduced size of myofibers, impaired contractile and metabolic activities. Previous studies have identified key molecular pathways leading to protein breakdown and degradation of sarcomeric proteins; yet, it remains a gap of knowledge on whether muscle resident cell populations can regulate the response of muscle to atrophic stimuli. Indeed, the recent identification of muscle-derived interstitial cells, named fibro-adipogenic progenitors, that can adopt multiple lineages and contribute, either directly o indirectly, to muscle regeneration (Joe et al,2010; Uezumi et al,2010) indicates a previously unrecognized complexity in the regulation of muscle homeostasis (Saccone et al,2014). We have discovered an unexpected key role of specific muscle-derived mononuclear cells in the pathogenesis of muscle atrophy. The characterization of the mechanism by which these cells contribute to the loss of muscle mass may lead to the identification of new therapeutic targets to counteract muscolar atrophy., PGC-1α overexpression is able to protect skeletal muscle from fasting or denervation-induced atrophy (1) and to improve sarcopenia in old mice (2). Consistently, in the skeletal muscle of cachectic tumor-bearing mice, PGC-1α expression is reduced (3), in Association with the accumulation of PAX7+ cells, which is suggestive of an impairment of myogenesis (4). Preliminary observations obtained in mice overexpressing PGC-1α specifically in the skeletal muscle show that the number of CD34+/Sca1+ cells, both integrin-α7 positive (satellite cells) and negative (other myogenic precursors), was higher in the muscle of transgenic (TG) mice than in those of wild-type (wt) animals. Not only, myotubes originating from TG-derived myogenic precursors were increased in both number and size in comparison to those obtained from wt progenitors. Aim of the present study was to investigate if PGC-1α overexpression can improve the regenerative capacity in the muscle of tumor (C26)-bearing animals after chemically-induced injury. BaCl2 (30 μl, 1.2% w/v) was injected in the tibialis anterior muscle the day after tumor implantation. Thirteen days after injury, both wt and TG controls almost completely recovered the initial myofiber cross sectional area (CSA; 70% of uninjured muscle). By contrast, CSA recovery was markedly delayed in wt or TG tumor-bearing mice (30% of uninjured muscle). Such a lack of CSA rescue in TG C26 hosts occurred despite TG mice constitutively possess a number of myogenic precursors higher than wt animals. As an estimate of mitochondria number, cytochrome c expression was evaluated. The results show that cytochrome c levels were significantly reduced in the regenerating muscle of wt C26 hosts, while remained comparable to those of uninjured muscle in BaCl2-treated TG tumor bearers. Previous observations showed that inhibition of ERK activity improved muscle wasting and myogenesis in the C26 hosts (4). In this regard, muscle pERK levels were significantly lower in TG tumor bearers than in wt C26 hosts. In conclusion, the present study shows that PGC-1α overexpression in the regenerating muscle of tumor hosts resulted in improved mitochondrial mass, and likely, oxidative capacity, and in reduced pERK levels, however without obtaining a significant CSA rescue. These observations suggest that while PGC1α overexpression exerts positive effects on tumor-induced derangements at the molecular level, it does not appear able to impinge on the multifactorial nature of muscle wasting., Cancer cachexia is a life-threatening syndrome that affects most patients with advanced cancers and involves severe body weight loss, with rapid depletion of skeletal muscle. No effective treatment is available. We analyzed microarray datasets to identify a subset of genes whose expression is specifically altered in cachectic muscles of Yoshida hepatoma-bearing rodents, but not in those with diabetes, disuse, uremia or fasting. By Ingenuity Pathways Analysis, we found three genes belonging to the CXCR4 pathway downregulated only in muscles atrophying because of cancer: SDF1, PAK1 and ADCY7. Consistently, we show that the expression of all SDF1 isoforms declines also in Tibialis Anterior from cachectic mice bearing colon adenocarcinoma or renal cancer and anti-cachexia drugs such as sunitinib restore it. Overexpressing genes of this pathway (i.e. SDF1 or CXCR4) in cachectic muscles increases the fiber area by 20%, partially protecting them from wasting. The mechanisms behind this muscle preservation during cachexia include both reduced degradation of long-lived proteins, by either SDF1α or SDF1β on atrophying myotubes, and increased protein synthesis, mainly by SDF1α. However, inhibiting CXCR4 signaling with the antagonist AMD3100 does not affect protein homeostasis in atrophying myotubes at all, whereas normal myotubes treated with AMD3100 display decreased diameter in a time- and dose-dependent manner, until a plateau. This further confirms the involvement of a saturable pathway (i.e. CXCR4). Overall, these findings support the idea that activating the CXCR4 pathway in muscle suppresses the deleterious wasting associated with cancer., Cancer cachexia is a systemic syndrome that consists of a dramatic weight loss with rapid muscle depletion due to enhanced protein degradation, irrespective of food intake. Remarkably, 50% of advanced cancer patients are affected by cachexia, which accounts for approximately 20% of cancer deaths. No therapy is available. Interestingly, females are more resistant to cancer cachexia than males. We analyzed previous microarray datasets to identify genes whose expression is specifically altered in cachectic muscles of Yoshida hepatoma-bearing male rodents. Among these genes, we found that apelin was drastically downregulated to 8% of controls in cachectic gastrocnemius muscles (with 14% of weight loss) from male rats bearing Yoshida hepatoma for 5 days. We confirmed by Q-PCR that apelin was downregulated to 45% and 2% of controls also in Tibialis Anterior (TA) muscles in Lewis Lung Carcinoma and in Colon Adenocarcinoma 26 (C26)-bearing mice, respectively. Moreover, in TA from C26-bearing mice also the expression of apelin receptor (APJ), a member of G-protein coupled receptors, was reduced to 16%. Q-PCR analysis further confirmed that apelin downregulation occurred at all stages of cancer cachexia of C26-bearing male mice, while the expression of APJ was significantly reduced to 30% of controls only in early cachectic mice with less than 14% of body weight loss. Since apelin is expressed on X chromosome both in humans and mice and it is not downregulated in muscles from C26-bearing female mice, we believe that apelin could be a good candidate to explain the gender difference of cancer cachexia., Cachexia is a syndrome frequently occurring in cancer patients. It is characterized by body and skeletal muscle wasting and by metabolic abnormalities. These latter are mediated, partially at least, by humoral factors. Energy balance perturbations also contribute to the onset of cachexia. In this regard, impaired mitochondrial functions and altered energy expenditure likely play a role. Recent observations suggest that in addition to classical humoral factors such as hormones or cytokines, also tumor-derived microvesicles (MVs), circulating particles containing different molecules such as proteins, mRNAs and microRNAs, may contribute to derangements associated with cachexia (1). MVs were isolated by differential ultracentrifugation from the conditioned medium of LLC (Lewis Lung Carcinoma) cells and were quantified by a NanoSight apparatus. After five day culture in differentiation medium, C2C12 myotubes were treated for 24 h with LLC-derived MVs. In C2C12 myotubes tumor-derived MVs induce a reduction of PGC-1α, the master regulator of oxidative metabolisms and mitochondrial biogenesis, as well as of Cyt-c mRNA expression. These results are in agreement with previous observations showing decreased PGC1α expression in the skeletal muscle of cachectic mice. In myotubes oxygen consumption is significantly decreased while lactate levels in the culture medium are increased after treatment with MVs. BNIP3 mRNA expression is significantly increased, while no differences can be observed as for myotube size and mRNA expression of both Atrogin1 and MuRF-1, two muscle-specific ubiquitin ligases. These results suggest that tumor-derived MVs affect mitochondria in C2C12 cultures. The reduction of mitochondrial mass (decreased Cyt-c mRNA expression) and function is associated with down-regulation of PGC-1α expression and enhancement of selective autophagy (mitophagy). On the whole, MV-induced alterations could contribute to muscle wasting during cancer cachexia., High mobility group box 1 (HMGB1) is a nuclear protein that acts extracellularly as an alarmin to modulate inflammation and tissue repair by recruiting cells and promoting their migration and activation. Recently, we showed that HMGB1 orchestrates both processes by switching among mutually exclusive redox states. Fully reduced HMGB1 acts as a chemoattractant, whereas a disulfide bond makes it a proinflammatory cytokine and further cysteine oxidation by reactive oxygen species (ROS) abrogates both activities. The fully reduced HMGB1 is prevalent in the extracellular environment immediately after acute muscle injury, and disulfide- HMGB1 appears a few hours later. Thus, the generation of ROS during muscle damage might modulate the redox status of the protein and eventually limit its lifespan and functions. We created a mutant (3S-HMGB1) not susceptible to redox modifications and we evaluated its regenerative activity in a model of acute muscle injury induced by cardiotoxin. We demonstrated so far that HMGB1 has beneficial effects in skeletal muscle regeneration after acute injury by dramatically increasing the number of healthy fibers and the number of satellite cells and M2c macrophages, two cell types essential for muscle repair. Moreover, HMGB1 acts directly on primary myoblasts by inducing their migration and their fusion to form large myotubes. Remarkably, 3S-HMGB1 behaves as a superagonist of HMGB1 in vivo, suggesting that it is a promising candidate for muscle repair therapies. Our study will be extended to other models of muscle damage, in particular dystrophies, in order to evaluate the therapeutic potential of 3S-HMGB1 in chronic conditions., Atrophy is an active process controlled by specific signaling pathways and transcriptional programs. The identification of the precise signaling cascades that regulate muscle wasting remains poorly understood. The Ubiquitin Proteasome System (UPS) is one of the major systems that control protein breakdown during muscle wasting. The specificity of ubiquitin-dependent degradation derives from many E3s that recognize specific substrates. This work is focus on a novel muscle-specific circadian-rhythm dependent ubiquitin ligase named Asb2β. To dissect its role, we have generated muscle specific and tamoxifen-inducible muscle specific knock-out mice. We have characterized these knockout mice in physiological and in catabolic conditions. Asb2β defective muscles show normal muscle morphology and mitochondrial content but muscles display a fiber type switch and glycogen accumulation. Glucose tolerance test revealed an improved glucose uptake in knockout mice. Moreover, glycogen content dramatically decreased in Asb2β knockout mice during fasting. The changes in glucose homeostasis are Akt independent but TBC1D1and AS160 dependent. However, absence of nutrients triggers necrotic degeneration and appearance of abnormal mitochondria in Asb2β-null muscles. We have also started to characterize the tamoxifen-inducible knockout mice. Preliminary data show that acute inhibition of Asb2β induces a time dependent muscle growth. In conclusion, we have identified a novel muscle specific ubiquitin ligase, Asb2β, that plays an important role in glucose homeostasis and muscle hypertrophy., Aging is characterized by loss of skeletal muscle mass and function, condition known as sarcopenia. The mechanisms underlying sarcopenia are not completely understood, however a role for ectopic fat accumulation has been proposed. Skeletal muscle accumulates lipid in form of triglycerides within lipid droplets (LDs). LDs are characterized by the presence of Perilipins (Plins), that control lipid accumulation and metabolism under physiological and pathological conditions. In skeletal muscle one of the most representative is Plin2, particularly involved in lipid storage. However, the exact role of Plin2 is not still clear. We found that in human muscle the expression of Plin2 increases with aging and it is inversely associated with muscle mass and strength. Moreover, Plin2 expression is associated with atrophy-related genes, MuRF-1 and Atrogin, suggesting a role for Plin2 in muscle aging and atrophy. We also analysed the expression of Plin2 in adult mice where muscle atrophy was induced by denervation. Denervation of tibialis anterior muscle was compared with the contralateral intact side. After denervation, beside the expected increase of MuRF-1 and Atrogin, also Plin2 expression actually increases. This suggested that Plin2 expression is somehow associated with muscle atrophy. To support this hypothesis, we performed muscle-specific in vivo silencing experiments of Plin2. After 7 days from injection, a decrease of Plin2 was observed, and most interestingly the cross-sectional area (CSA) of Plin2-negative fibres resulted increased of about 30% with respect to Plin2-positive ones. As a whole, these data suggest that in skeletal muscle Plin2 is involved not only in muscle atrophy, but also in hypertrophy. Further studies are ongoing to better clarify this new role of Plin2 in skeletal muscle., The rhabdomyosarcoma (RMS) is the most common soft tissue sarcoma in people under 20 years of age. It can commonly arise anywhere in the body but the head and neck, the extremities and the genitourinary tract are predominant sites. Based on histology, RMS tumors are classified into two major subtypes, embryonal and alveolar, which also differ in the molecular pathogenesis of development. Despite these differences, the origin of aRMS and eRMS seems to be the same but the precise cell type that triggers RMS is still unclear. Some evidence supports the notion that skeletal muscle precursors, probably satellite cells, may initiate RMS. Alternative theories propose mesenchymal stem cells, or even cells belonging to the adipocyte lineage, as possible tumor-initiating cells. In order to shed light on the origin of eRMS, we adopted the KrasG12D/+Trp53Fl/Fl conditional mouse model. This model allows us to generate eRMS in the hind limb of mice by infecting them with an adenovirus vector carrying the CRE recombinase. In a first approach we want to describe and rationalize the changes in the tumor mass cell populations by analyzing the tumor at different stages of development by using flow and mass cytometry techniques. In a second approach we aim at identifying the cell population(s) that are responsible for initiating the tumor. To this end we induce the gene mutations that are responsible for rhabdomyosarcoma development by infecting, with the CRE recombinase adenovirus, isolated muscle mononucleate cell populations and monitor their ability to develop rhabdomyosarcoma tumorigenic properties in vitro., The purpose of this study was to investigate whether MURC/cavin-4, a plasma membrane and Z-line associated protein exhibiting an overlapping distribution with Caveolin-3 (Cav-3) in heart and muscle tissues, may be expressed and play a role in rhabdomyosarcoma (RMS), an aggressive myogenic tumor affecting childhood. We found MURC/cavin-4 to be expressed, often concurrently with Cav3, in mouse and human RMS, as demonstrated through in silico analysis of gene datasets and immunohistochemical analysis of tumor samples. In vitro expression studies carried out using human cell lines and primary mouse tumor cultures showed that expression levels of both MURC/cavin-4 and Cav-3, while being low or undetectable during cell proliferation, became robustly increased during myogenic differentiation, as detected via semi-quantitative RT-PCR and immunoblotting analysis. Furthermore, confocal microscopy analysis performed on human RD and RH30 cell lines confirmed that MURC/cavin-4 mostly marks differentiated cell elements, colocalizing at the cell surface with Cav-3 and labeling myosin heavy chain (MHC) expressing cells. Finally, MURC/cavin-4 silencing prevented the differentiation in the RD cell line, leading to morphological cell impairment characterized by depletion of myogenin, Cav-3 and MHC protein levels. Overall, our data suggest that MURC/cavin-4, especially in combination with Cav-3, may play a consistent role in the differentiation process of RMS., Rhabdomyosarcoma (RMS) is a childhood soft tissue tumor with broad expression of markers that are typically found in skeletal muscle. Cavin-1 is a recently discovered protein actively cooperating with Caveolin-1 (Cav-1) in the morphogenesis of caveolae and whose role in cancer is drawing increasing attention. Using a combined in silico and in vitro analysis here we show that Cavin-1 is expressed in myogenic RMS tumors as well as in human and primary mouse RMS cultures, exhibiting a broad subcellular localization, ranging from nuclei and cytosol to plasma membrane. In particular, the coexpression and plasma membrane interaction between Cavin-1 and Cav-1 characterized the proliferation of human and mouse RMS cell cultures, while a downregulation of their expression levels was observed during the myogenic differentiation. Knockdown of Cavin-1 or Cav-1 in the human RD and RH30 cells led to impairment of cell proliferation and migration. Moreover, loss of Cavin-1 in RD cells impaired the anchorage-independent cell growth in soft agar. While the loss of Cavin-1 did not affect the Cav-1 protein levels in RMS cells, Cav-1 overexpression and knockdown triggered a rise or depletion of Cavin-1 protein levels in RD cells, respectively, in turn reflecting on increased or decreased cell proliferation, migration and anchorage-independent cell growth. Collectively, these data indicate that the interaction between Cavin-1 and Cav-1 underlies the cell growth, migration and differentiation grade in myogenic tumors., Recently, it was shown that in yeast CK2-dependent phosphorylation of the mitochondrial import receptor Tom22 promotes biogenesis of the TOM translocase and is required for import of mitochondrial proteins. We asked whether CK2-dependent phosphorylation of TOM proteins also occurs in mammals. Using CK2β-deficient skeletal muscle lysates, we observed less phosphorylation of Tom22. Moreover, we confirmed CK2 phosphorylating residues serine 15 and threonine 43 of murine Tom22. Further, CK2-dependent phosphorylation of Tom22 changes its binding affinity for proteins need to be imported into mitochondria. In the absence of CK2 mitochondrial protein import is impaired in muscle fibers and mitochondria are dysfunctional. Pink1, a mitochondria health sensor and involved in Parkinson s disease, accumulates within mutant muscle cells, and labels removal of dysfunctional mitochondria by mitophagy and involvement of autophagic adaptor protein p62/SQSTM1. Consequently, the metabolism of oxidative muscle fibers in mutant muscles shifted towards glycolytic. As proof of concept, removal of aggregated p62/SQSTM1 by muscular in vivo electroporation of phosphomimetic Tom22 was successful. This is the first evidence for both, regulated protein import into mammalian mitochondria, and muscle weaknes due to a mitochondrial protein import defect., Canonical Wnt/β-catenin signaling plays a role in myogenic differentiation, but its role in adult muscle fibers is completely unknown. We approached canonical Wnt signaling in adult myofibers by well-known reporter Axin2-lacZ mice, monitoring X-Gal staining in muscle stem cells, in adult muscle fibers and at their neuromuscular synapse. In muscle stem cells, canonical Wnt signalling is absent in quiescent cells and 72 h proliferating cells. In adult muscle fibers, canonical Wnt signaling is strongly detectable by Axin2- and β-catenin-positive skeletal muscle fibers, where it is expressed only in fast fiber types with small cross-sectional areas. In these fibers, canonical Wnt signaling is active together with Hippo signaling members, YAP/TAZ and TEAD1. During differentiation of C2C12 cells, Axin2 increases together with the expression of TEAD1-target genes: CTGF, Ankrd1 and Cyr61. In cultured primary muscle cells, we observed Axin1 and Axin2 being involved in proliferation and myotube formation in a Wnt1 and Wnt3a dependent manner. We present a model how canonical Wnt/β-catenin signaling, together with YAP/TAZ and TEAD1, influences muscle fiber diameter in fiber-type specific manner., Muscle atrophy contributes to the poor prognosis of many pathophysiological conditions, but pharmacological therapies are still limited. Muscle activity leads to major swings in mitochondrial [Ca2+] which control aerobic metabolism, cell death and survival pathways. We have investigated in vivo the effects of mitochondrial Ca2+ homeostasis in skeletal muscle function and trophism, by overexpressing or silencing the Mitochondrial Calcium Uniporter (MCU). The results demonstrate that both in developing and in adult muscles MCU-dependent mitochondrial Ca2+ uptake has a marked trophic effect that does not depend on aerobic control, but impinges on two major hypertrophic pathways of skeletal muscle, PGC-1α4 and IGF1-AKT/PKB. In addition, MCU overexpression protects from denervation-induced atrophy. These data reveal a novel Ca2+-dependent organelle-to-nucleus signaling route, which links mitochondrial function to the control of muscle mass and may represent a possible pharmacological target in conditions of muscle loss., PKC (protein kinase C) family is composed by 3 subgroups: conventional, novel and atypical PKC. These kinases are involved in a large number of biological processes (such as protein synthesis, glucose metabolism, apoptosis). PKCzeta and PKClambda/iota belong to the atypical PKC subgroup and differ from conventional and novel PKCs for their activation mechanism. Indeed atypical PKCs are calcium and diacylglycerol (DAG) insensitive, while classical PKCs are activated by calcium and DAG, and novel PKCs are activated by DAG but not by calcium (1,2). Little is known on the role of PKCzeta on skeletal muscle homeostasis. Thus, we overexpressed this kinase by in vivo transient transfection. We observed a marked hypertrophy in PKCzeta positive myofibers compared to surrounding not transfected fibers. In addition PKCzeta overexpression protected muscle from denervation-induced atrophy. Next, we studied the effects of 3 different PKCzeta mutants on fiber size: 1) PKCzeta-DN (a dominant negative isoform carrying a point mutation on the ATP-binding site); 2) PKCzeta-ΔNPS (a costitutive active mutant); 3) PKCzeta-InLoop (a dominant negative isoform mutated in the activation loop). Surprisingly all these mutants cause muscle hypertrophy and protect from denervation-induced atrophy suggesting a possible kinase-independent mechanism of PKCzeta on skeletal muscle trophism., P38 mitogen activated protein kinases (MAPKs) are required at several stages during differentiation of muscle progenitor cells. P38 phosphorylation initially accompanies satellite cells activation and triggers asymmetric division. At a later stage, it orchestrates myoblast differentiation promoting myotube formation. The signals that trigger or modulate p38 activation during the differentiation process are still debated. Both cellJtoJcell contact and TNFα prime p38α/β phosphorylation and activation during myogenesis. Cdo, a multifunctional surface protein has been implicated in myogenesis. Following cellJtoJcell contact and ligation to cadherin, Cdo binds JLP and BnipJ2 which act as scaffolds for recruitment of p38α/β and Cdc42. The formation of the complex leads to activation of Cdc42, which is fundamental to promote p38α/β phosphorylation and myogenic differentiation. However, the phosphorylation cascade leading to p38α/β activation has not been elucidated. We focused on Pak1, a member of the p21 activated kinase family, which is activated by Cdc42. We have observed that treatment of differentiating myogenic progenitors (mesoangioblasts) with the Pak1 inhibitor IPAJ3 negatively modulates p38α/β phosphorylation and myogenin expression without affecting cell proliferation. This inhibition of the myogenic differentiation program results in a lower efficiency of myotube formation. We followed these observations in vivo by monitoring regeneration efficiency in mice treated with IPA-3 and we observed that mice treated with IPA-3 displayed a delayed recovery after cardiotoxin injury. These results suggest the Pak1 contributes to myogenic differentiation of progenitor cells in vitro and participates in muscle regeneration in vivo., Ambra1 (activating molecule in Beclin 1-regulated autophagy) is an adaptor protein involved in a plethora of cellular processes. Studies in mice with a randomly mutated Ambra1 locus (Ambra1gt/gt) showed that this gene is essential for the development of the central nervous system. A recently published work by our team suggests that Ambra1 may also play a key role for muscle development in zebrafish and mouse. Indeed, Ambra1gt/gt E13.5 mouse embryos display severe defects of neck, tongue, dorsal and limb muscles, being characterized by increased cellularity and a marked disorganization of myofibers. To better clarify the role of Ambra1 in skeletal muscles, we generated mice with a floxed Ambra1 allele (Ambra1flox/flox). Ambra1flox/flox mice were then crossed with a CAG-Cre transgenic line, which express Cre recombinase in the oocytes, thus obtaining Ambra1+/- mice. Here we show that Ambra1–/– mice die at late developmental stages and display severe morphological defects, similar to Ambra1gt/gt embryos. Adult Ambra1+/- mice show an increased percentage of centrally nucleated fibers and a decreased proportion of oxidative fibers. Ambra1flox/flox mice were then bred with MLC-1f-Cre transgenic animals, which only express Cre recombinase in mature myofibers. Our preliminary data in adult Ambra1flox/flox;MLC-1f-Cre mice show a significant increase of centrally nucleated fibers, although we did not observe any overt defect of oxidative fibers. Altogether, our data suggest that Ambra1 is important for the development of skeletal muscle. Further studies in different muscles of Ambra1flox/flox;MLC-1f-Cre mice under different stress conditions will allow elucidating the role of this adaptor protein in myofiber homeostasis, Myopalladin (MYPN) is a striated muscle-specific sarcomeric protein belonging to a small family of actin-associated immunoglobulin-containing proteins. MYPN mutations have been identified in patients with dilated (DCM), hypertrophic, and restrictive cardiomyopathy. Furthermore, we identified three MYPN mutations in limb girdle muscular dystrophy (LGMD) patients with associated DCM. Within the sarcomeric Z-line, myopalladin binds to α-actinin, nebulin, and PDZ-LIM proteins. Furthermore, it is present in the nucleus and the I-band where it binds to the stress-inducible transcriptional cofactor CARP/Ankrd1, which, in turn, binds to the I-band region of titin, suggesting a role of MYPN in mechanosensing. In our preliminary studies, we found that MYPN can bind to and bundle filamentous actin, thereby promoting actin polymerization. Moreover, MYPN interacts with MRTF-A and strongly increases MRTF-A-mediated activation of serum response factor (SRF) signaling. In studies of MYPN knockout (MKO) mice, we found that MKO mice are significantly smaller compared to wildtype (WT) mice and have an about 30% reduction in skeletal muscle cross-sectional area (CSA) at all ages. Consistently, reduced differentiation rate and myotube width was observed in primary skeletal muscle cultures derived from MKO mice. Furthermore, studies of muscle performance in 2-month-old MKO mice showed reduced isometric force and power during isotonic shortening at any loads as a result of the reduced cross sectional area, whereas the force developed by each myosin molecular motor was unaffected. By up- and downhill treadmill running, MKO and WT mice performed similarly. However, while the performance of WT mice was unaffected following four consecutive days of downhill running, the performance of MKO mice decreased progressively and signs of muscle regeneration following muscle damage were observed. Consistent with a higher susceptibility to muscle damage, progressive Z-line widening was observed in MKO skeletal muscle from about 8 months of age. RNAseq revealed downregulation of actin isoforms and other SRF-target genes in MKO muscle both at 2 and 4 weeks of age, suggesting altered SRF signaling as a possible explanation for the reduced CSA in MKO mice., Impairment of autophagy in muscle leads to precocious ageing1. In particular, autophagy deficient mice are characterized by weakness are atrophy that are associated with alteration in Neuro Muscular Junction (NMJ) and loss of innervation. In order to investigate the cross-talk between muscle and nerve, we found that the expression of FGFBP1, a neurotrophic factor that is critical to preserve muscle-nerve interaction, is suppressed in muscle of autophagy deficient mice. FGFBP1 has been found to be regulated by miRNA206, the muscle-specific miRNA2. When we checked the level of miRNA206 expression, we found higher level of miRNA206 in serum of muscle specific autophagy deficient mice than in controls. Importantly, miRNA206 was detected in the heart of those mice. To understand whether autophagy deficient muscles released vesicles containing microRNAs, we analysed exosomes Quantitative RT-PCR analyses confirmed an increased expression of miRNA206 in purified exosomes from both denervated and autophagy deficient fibers. Moreover expression of BDNF in neurons treated with purified exosomes containing miRNA206 was down-regulated. This finding suggests a potential role of exosomes and miRNA206 in modulating synaptic plasticity. In order to mimic autophagy deficient mice condition, we systemically injected exosomes transfected with miRNA206 in wild-type animals. MiRNA206 was found in several tissues, in particular liver and heart. Moreover the treatment was sufficient to induce skeletal muscle atrophy and changes in the expression of several neurotrophic factors. These data support the role of exosome as a signaling mechanism that connects muscle with different tissues including motorneuron, heart and liver., Duchenne muscular dystrophy (DMD) is a genetic disease in which loss of functional dystrophin protein results in progressive skeletal muscle degeneration. Although the genetic defect is widely known, the mechanisms by which the absence of dystrophin leads to the complex pathophisiology of the disease is not completely understood. MiRNAs are small non coding RNA that are important regulatory elements for muscle development and function [1]. Altered levels of specific miRNAs were found in several muscular disorders, including DMD [2, 3]. In particular it has been identified a specific DMD-signature miRNAs that may serve as a marker for therapeutic purposes [4]. Moreover, in a recent work it has been defined a specific group of miRNAs strictly correlated to dystrophin levels and whose deregulated expression could explain several pathogenetic features of DMD [5]. Previously we have demonstrated that the local expression of mIGF-1 in mdx mice ameliorates the dystrophic phenotype reducing myonecrosis and upregulating survival pathways such as AKT pathway [6]. In this work, we show that a specific group of miRNAs, dystrophin-indipendent, are modulated by mIGF-1 expression. In particular, local expression of mIGF-1 promotes the modulation of miR-206 and miR-24 as well as muscle specific genes associated with maturation of regenerating muscle fibers and differentiation. These results indicates that local overexpression of the anabolic factor mIGF-1 in mdx mice ameliorates the dystrophic microenviroment modulating the expression of a specific group of miRNAs and inducing a partial rescue of the characteristic DMD-signature., Circular RNAs have been recently re-discovered as a large class of putative non-coding RNAs with a peculiar structure and poorly understood functions. Although their biogenesis, which proceeds via a back-splicing reaction, has been studied and dissected in the last years, their role in biologically relevant processes is still uncharacterized. Here, we performed expression profiling of circRNAs during in vitro differentiation of murine and human myoblasts, we selected and validated the expression of a subset of highly expressed, conserved circular RNAs and applied a high-content functional genomic screen in order to identify molecules that were able to impact on the differentiation process. We focused on three circRNAs whose down-regulation resulted in important phenotypes and further scrutinized one of them, named circ-ZNF609, with the aim of undestanding its molecular function. We found that circ-ZNF609 contains an open reading frame spanning from the native start codon of its host transcript and terminating at an in-frame stop codon that is created upon circularization. Circ-ZNF609 is associated to heavy polysomes and is translated into a 30-KDa peptide that is able to promote human myoblasts proliferation., Stem cells and regenerative medicine have greatly increased the expectations of the scientific community and the public for their potential in applications that aim at recovering or replacing injured, aged and diseased tissues. Nevertheless their clinical application is currently hindered by cell survival, inflammatory response, tissue engraftment, vascularization and efficient differentiation. Tissue engineering exploits biomaterials to improve stem cell engraftment and differentiation by mimicking organogenesis. Skeletal muscle tissue engineering is an up-and-coming biotechnology that could offer great potential, in the near future, for muscle repair. Reconstructing the skeletal muscle architecture and function is still a challenge requiring parallel alignment of myofibrils arranged into organized sarcomeres. We show that an “anatomical bioreactor-like” represented by the surface of mouse tibialis anterior muscle (TA), positively influences maturation and alignment of fibers derived from adult muscle stem/progenitor cells embedded into a poly-ethylene-glycol-fibrinogen (PF) hydrogel. This approach leads to the generation of an artificial normal muscle. Furthermore by the same approach we succeeded in replacing a complete mouse TA after massive muscle ablation, recovering morphology and function of the substituting artificial TA. Starting from these observations, we are now developing a novel approach for regeneration and/or reconstruction of skeletal muscle tissue segments human-like size in order to translate this technique to clinical application. For this purpose human derived muscle pericytes have been isolated from muscle biopsies and have been investigated for their myogenic potential. Moreover by exploiting the PF properties, we demonstrated the noteworthy potential of this cell population for human skeletal muscle tissue engineering., Histone deacetylases (HDACs) control the transcriptional networks underlying both muscle differentiation and progression of dystrophy. Considering that, HDAC inhibitors (HDACi) are important candidate drugs for pharmacological interventions in muscular dystrophies. Although the beneficial effects of HDACi in the treatment of muscular dystrophy are known, it remains to dissect the mechanism of action and the cellular mediators of these drugs. The goal of this project is to analyze the molecular mechanisms underlying the role of resident satellite cells and infiltrating macrophages in mediating the activity of HDACi ITF2357 (also referred to as Givinostat) in dystrophic muscle of mdx mice, the best animal model of Duchenne Muscular Dystrophy (DMD). We analyzed the dystrophic phenotype of mdx mice treated with Givinostat at different stages of disease, specifically 6, 12 and 36 weeks, corresponding to necrotic/inflammatory, regenerative and fibrotic stage, respectively. The histopathological and morphometric analyses show an amelioration of dystrophic phenotype with a significant increase of muscle fiber cross-sectional area and a consistent reduction of intramuscular fibrosis, surprisingly also at late stage of disease, suggest a positive outcome also in old mdx mice. Moreover, gene expression analysis of whole skeletal muscle and purified cell populations pointed out a modulation of fibrosis and inflammatory markers and fibroadipogenic differentiation. Overall, these data confirm the beneficial effects of Givinostat on dystrophic muscle and identify the involvement of macrophages in mediating Givinostat activity., Central Core Disease (CCD) and Malignant Hyperthermia (MH) are related disorders linked to mutations in the ryanodine receptopr-1 (RYR1) gene, encoding for the sarcoplasmic reticulum (SR) Ca2+ release channel. CCD is a congenital myopathy characterized by amorphous regions lacking mitochondrial activity (cores) in skeletal fibers. In humans, the RYR1-Y522S mutation is associated with MH and formation of structural cores. Skeletal fibers of knock-in RYR1Y522S/WT mice develop mitochondrial damage and cores, caused by excessive oxidative stress (Boncompagni et al. 2009 PNAS). We treated RYR1Y522S/WT mice with an antioxidant, N-acetylcysteine (NAC), provided ad-libitum in drinking water (1%w/v) for 2 months and verified reduction of oxidative stress: indeed, level of 3-nitrotyrosine was increased by 1.44-folds in RYR1Y522S/WT mice, but reduced to control levels after NAC treatment. Electron microscopy was used to assess mitochondrial integrity following NAC-treatment: a) mitochondria swelling and frequency of damaged mitochondria were both decreased (-24% and -10%, respectively); b) the number/100 µm2 of mitochondria (25.9 ± 0.7 vs 29.1 ± 0.6) and their proper association with the SR (+22%) were both increased. Using histological analysis, we also verified that NAC was effective in reducing the frequency of cores (-20% contracture cores; -30% unstructured cores). Finally, we evaluated muscle function in treated mice by grip strength test: NAC was able to improve muscle strength of about 80%. This work provides the bases for clinical trial as it demonstrate that NAC-administration prevents mitochondrial damage, development of cores, and improves muscle function in a mouse model of CCD., In humans, lethal hyperthermic episodes can be trigger by anesthetics (a disorder known as Malignant Hyperthermia, Susceptibility, MHS) and by high temperature and/or strenuous exercise (crises identified as Environmental/Exertional Heat Strokes, EHSs). The correlation between MHS and EHS is strongly supported by extensive work in animal models: indeed, both RYR1Y522S/WT knock-in and CASQ-1 knockout mice trigger similar lethal crises when exposed to both halothane and heat. Here we tested the following hypotheses: a) strenuous exercise is a stimulus capable to trigger EHS-lethal episodes; b) MHS and EHS share common molecular mechanisms underlying crises. When RYR1Y522S/WT and CASQ1-null mice were subjected to an exertional-stress (ES) protocol (executed on a treadmill placed in an environmental chamber), which was well tolerated by WT animals (0% of deaths), the mortality rate was dramatically increased (80% and 75%, respectively), with a rise in core temperature (hyperthermia) significantly higher than in WT at the end of the stimulus. During exertional-crises, most fibers from RYR1 Y522S/WT and CASQ1-null mice suffer severe structural damage (~99% and ~64% of fibers, respectively), indication of rhabdomyolysis. Importantly, pre-treatment of animals with azumolene (a more water soluble dantrolene analog, the only drug approved for treatment of MH crises in humans) almost completely abolished mortality rate in RYR1 Y522S/WT and CASQ1-null animals, by reducing hyperthermia, rhabdomyolysis, and Ca2+leak from the SR. All these results strongly suggest that EHS share common molecular mechanisms with anesthetic-induced MH episodes and that drugs used to treat classic MH should be considered for treatment of EHS., Duchenne muscular dystrophy (DMD) is an X-linked neuromuscular disorder characterized by progressive muscle degeneration due to lack of dystrophin, a protein essential for the integrity of sarcolemma during contraction. In DMD compensative degeneration/regeneration cycles determine a condition of chronic inflammation contributing to progressive muscle wasting. RAGE (receptor for advanced glycation end-products) is a multiligand receptor belonging to the immunoglobulin superfamily involved in physiological and pathological processes including inflammation and myogenesis [1]. RAGE is not expressed in adult muscle tissue, whereas it is expressed in regenerating myofibers during muscle regeneration [2,3], in dystrophic muscles and activated immune cells. To have information about the role of RAGE in the pathophysiology of DMD we generated a double mutant mdx/Ager–/– mouse lacking dystrophin and RAGE (Ager). We analyzed diaphragms and hind-limb muscles (i.e., tibialis anterior and quadriceps femoris) of mdx, mdx/Ager–/–, Ager–/– and WT mice at different ages (i.e., 2, 3, 4 and 5 weeks, and 3 and 6 months of age). We found that although the absence of RAGE in dystrophic mice did not affect the onset of the pathology, muscles of 5 week- and 6 month-old mdx/Ager–/– mice showed significantly reduced numbers of necrotic myofibers, and reduced areas of immune cell infiltrate compared with age-matched mdx mice. Also, muscles of mdx/Ager–/–mice showed strongly reduced expression of the marker of activated macrophages, MAC3, compared with mdx mice. Moreover, muscles of mdx/Ager–/– mice exhibited significantly reduced PAX7+ve and myogenin+ve cell numbers, pointing to a reduced recruitment of muscle precursor cells and a more efficient regeneration in dystrophic mice lacking RAGE. Our results suggest that RAGE has an important role in sustaining inflammatory and degenerative processes in dystrophic muscles, and that inhibition of RAGE expression/activity might represent a potential therapeutic approach in DMD patients., Ageing is associated to a dramatic increase in the incidence of heart failure, even if the existence of a real age-related cardiomyopathy remains controversial. As effective contraction and relaxation of cardiomyocytes also depends on Ca2+ supply to myofibrils (handled by calcium release units, CRUs) and on efficient ATP production (provided by mitochondria), in this study we performed a morphological study of cardiac cells in hearts from adult and old mice (4 months vs. ≥ 24 months of age) using confocal and electron microscopy. The analysis of CRUs indicates that couplons become shorter with age and that the number of CRUs/50 µm2 is decreased of about 24% (adults: 5.1±0.32; old: 3.9±0.19). Also mitochondria present structural modifications, with a significant increase in the percentage of organelles presenting severe alterations (3.5% vs. 16.5%). Importantly, both CRUs and mitochondria undergo a spatial re-organization with respect to sarcomeres/myofibrils: CRUs may be miss-oriented (longitudinal) or miss-placed (found at the A band instead of being correctly placed in proximity of Z-lines), while mitochondria are often grouped in an abnormal fashion. In addition, WB analysis shows that in aged mice, there is a significant reduced expression of junctophilin-2 (JP-2), a membrane protein involved in maintaining stability and morphometry of dyads. These age-related ultra-structural changes may underlie an inefficient supply of Ca2+ and ATP to contractile elements, providing a possible explanation for heart dysfunction associate to age., Progressive muscle degeneration followed by dilated cardiomyopathy is a hallmark of muscular dystrophy. Stem cell therapy is suggested to replace diseased by healthy myofibers, although so far we are faced by low efficiencies of migration, engraftment and differentiation of stem cells. Chemokines are signalling proteins guiding cell migration and have been shown to tightly regulate cardiac repair. We sought to determine which chemokines are expressed in a dystrophic heart that is undergoing cardiac remodelling. Therefor we analysed chemokine expression of Sarcoglycan-α (Sgcα) null, Sarcoglycan-β (Sgcβ) null and immunodeficient Sgcβ-null mice. High expression of all three monocyte-chemotactic proteins was observed, especially Ccl8 in both Sgcβ-null models and to a greater extent in Sgcα-null mice. Additionally, Fractalkine (Cx3cl1) was upregulated in both the immunocompetent and immunodeficient Sgcβ-null mice. In addition, we aim to evaluate the migration potential of cardiovascular progenitors derived from pluripotent stem cells in vitro, that have the potential to differentiate with high efficiency towards cardiomyocytes, smooth muscle cells and endothelial cells in vitro. We plan to test these cells for their in vivo differentiation and migration capacity towards the previously mentioned chemokines. This sheds perspective for an approachable mechanism, which could potentially improve stem cell homing towards the dystrophic myocardium., Cardiac dysfunction from cardiomyopathy is a frequent manifestation of muscular dystrophy. The primary defect common to most dystrophies involves the disruption of the dystrophin-glycoprotein complex (DGC) with subsequent sarcolemma instability and Ca2+ influx, inducing cellular necrosis. Defective Ca2+ uptake resulting from decreased expression and reduced activity of calcium-transporting ATPase (SERCA2a) and, recently, SERCA2a gene therapy has been demonstrated to mitigate dystrophic diseases. Our previous studies have demonstrated that the dystrophic phenotype observed in δ-sarcoglycan–null hamster is dramatically improved by a long-term dietary supplementation with flaxseeds (FS) (rich in n3-PUFAs), but the molecular mechanisms have not yet been fully understood. The present study was designed to test the hypothesis that FS enriched diet could regulate DGC and SERCA2a proteins that play an important structural and functional role in cardiomyocytes. Therefore, the levels of these proteins and mRNAs were analyzed in heart dystrophic hamsters fed with FS diet for long (five months) or short time (48 hours). Results showed that α- distroglycan, α-, β, γ-sarcoglycan and SERCA2a proteins were down-regulated in dystrophic hearts and FS-diet restored their normal expression pattern. The RT-PCR analysis showed that α-distroglycan, α-sarcoglycan and SERCA2a were up-regulated at the transcriptional level. Interestingly, the mRNAs increase was observed even when FS was administered for short periods suggesting the involvement of an epigenetic mechanism. Therefore, it seems plausible to consider the administration of plant-originated n-3 PUFAs as an adjuvant strategy for attenuating sarcolemma instability and defective Ca2+ uptake that represent major damages associated with dystrophic cardiomyopathies., Oxidative stress (OS) is an imbalance between the production of free radicals, in particular reactive oxygen species (ROS), and the ability of the cells to counteract them by antioxidant responses. ROS production in skeletal muscle occurs mainly in mitochondria, both following physiological stimuli (e.g. aging, physical exercise, or at birth) (1-3) and in response to pathological events, such as denervation (4). In all cases, high levels of ROS actively influence the maintenance of muscle homeostasis. Histone deacetylase 4 (HDAC4) is a member the class II of the HDAC superfamily that regulates many cellular processes (5-7). Following denervation, HDAC4 is upregulated in skeletal muscle: it induces muscle atrophy and represses reinnervation (8-9). Increased levels of ROS cause HDAC4 translocation from the nucleus to the cytoplasm, thus inducing the release of genes transcriptionally repressed by HDAC4(10). However, HDAC4 targets in skeletal muscle have not been discovered yet. In order to investigate the role of HDAC4 in response to OS in skeletal muscle, we use a mouse model with the selective deletion of HDAC4 in myogenin positive cells (HDAC4 mKO mice). HDAC4 mKO mice are viable and do not show gross abnormalities in skeletal muscle. We analyzed mice in two different conditions characterized by elevated OS: at birth and in adult mice following denervation. Molecular responses to oxidative stress are blunted in both newborn and adult HDAC4 mKO compared to control mice. Since elevated ROS contribute to mitochondrial damage and are important in redox signaling from the organelle to the rest of the cell, we analyzed mitochondrial ultrastructure. Both newborn and adult HDAC4 mKO muscles presented damaged mitochondria, altered mitochondrial dynamics and defects in myofiber organization. Our results indicate that HDAC4 is important in skeletal muscle to maintain muscle integrity and a proper response upon OS. Current studies are focused on the identification of HDAC4 targets in the OS response in skeletal muscle, Collagen VI (ColVI) is a major extracellular matrix component made of three genetically distinct α chains and abundantly deposited in the basement membrane of both skeletal muscles and peripheral nerves. Mutations in COL6A1, COL6A2 and COL6A3 genes are known to cause different forms of muscle diseases, including Bethlem myopathy, Ullrich congenital muscular dystrophy and myosclerosis myopathy. ColVI null (Col6a1–/–) mice display a myopathic phenotype characterized by latent mitochondrial dysfunction, spontaneous apoptosis, defective autophagy regulation and compromised muscle regeneration. We recently demonstrated that the absence of ColVI in peripheral nerves leads to hypermyelination, altered Remak bundles, sensory-motor functional deficits and decreased nerve conduction velocities, thus pointing at ColVI as a crucial molecule for peripheral nerve structure and function. Given the muscle and nerve defects displayed by Col6a1 null mice, we decided to explore the role of ColVI in the neuromuscular junction (NMJ). Our unpublished studies revealed that ColVI is indeed deposited at the synapse. Immunofluorescence analysis showed ColVI deposition in NMJs. Preliminary results revealed altered expression of synaptic genes and abnormal electrophysiological parameters in Col6a1–/– mice. These findings suggest a potential role for ColVI at the NMJ, and further studies will allow shedding new light on the roles of this extracellular matrix component in the nerve/muscle axis., Muscular dystrophies are non curable diseases. Recently, new strategies shed light to an increase of muscle regeneration. These strategies focus on epigenetic drugs. TSA (HDACi) achieve to enhance the regeneration rate in both mice and humans. However, new challenges stay on the horizon. Monitoring and controlling the changes of the treatment in muscle without invasive techniques are one of that’s. In our research we identified seven microRNAs differential expressed in FAPs population. FAPs are Key players of muscle regeneration under HDACi treatment. From these seven microRNA, miR-143 has been validated with qRT-PCR, and Chip techniques. This miR-143 form part of a cluster with miR-145 that locates into a long non coding RNA non characterized until that moment. The overexpression of this miR-143 turns FAPs into a non adipogenic phenotype, whereas the inhibition of it recovershe adipogenic behavior. Thus, in this work we are trying to characterize the role of this microRNA and their host gene to understand if it could be a good candidate to be used as marker during the treatment., The central dogma of gene expression is that DNA is transcribed into messenger RNAs, which in turn serve as the template for protein synthesis. In recent years, it has been discovered that genomes of multicellular organisms are characterized by the pervasive expression of different types of non-coding RNAs (ncRNA) and, among them, long non-coding RNAs (IncRNAs). In particular the mammalian genome contains many thousands of lncRNAs, which have been proposed to be fundamental in the regulation of many biological processes such as cellular differentiation and show an aberrant regulation in a variety of diseases. A transcriptome analysis performed during in vitro murine muscle differentiation allowed us to identify a subset of new lncRNAs differentially expressed during myogenesis (1). These transcripts were classified on the basis of their expression in proliferating versus differentiated conditions, muscle-restricted activation and subcellular localization. We are now focusing on the characterization of a nuclear lncRNA conserved in human, lnc-405, up-regulated during differentiation, whose expression is cardiac and skeletal muscle restricted. To dissect its role in myogenesis, we performed loss of function experiments using LNA-Gapmers followed by a transcriptome analysis. This approach revealed a strong down-regulation of a subset of genes involved in fiber contraction, cell fusion and related to several cardiomyopathies. With the idea to better explain its crucial role during myogenesis, we are now focusing on the molecular mechanism by which lnc-405 exerts its function in the nucleus by RIP, ChIRP and RNA pull-down assays that are on going., The functional connection between muscle and nerve is affected in several neuromuscular diseases, including Amyotrophic Lateral Sclerosis (ALS) whose major pathological processes are motor neuron degeneration. However, other cells may be involved in the pathogenesis of ALS and open the possibility that alteration in skeletal muscle homeostasis represents one of the principal mediators of motor neuron degeneration. We have evidences that indicate that muscle selective expression of SOD1G93A mutant gene modulates, at the level of spinal cord of MLC/SOD1G93A mice, relevant mRNA and microRNA associated with myelin homeostasis. Our study provided insights into the pathophysiological interplay between muscle and nerve and supports the hypothesis that skeletal muscle is a source of signals that can affect the nervous system., Calsequestrin (CASQ) is the major protein of the sarcoplasmic reticulum of striated muscle that binds Ca2+ with high capacity and moderate affinity. CASQ exist as a monomer and polymers, depending on Ca2+ concentration. CASQ switches from an unfolded state to a folded monomer when the ionic strength increases allowing the formation of front-to-front first and then back-to-back interactions in higher Ca2+ concentrations. In humans, mutations in the cardiac isoform CASQ2 lead to catecholamine-induced polymorphic ventricular tachycardia. Recently we reported one mutation in the skeletal CASQ1 gene in a group of patients with a vacuolar myopathy characterized by the presence of inclusions containing CASQ1 and other SR proteins. The CASQ1 mutation (CASQ1D244G) affects one of the high-affinity Ca2+-binding sites of the protein and alters the kinetics of Ca2+ release in muscle fibers from patients. Expression of the CASQ1D244G in myotubes and in mouse fibers causes the appearance of SR vacuoles containing aggregates of the mutant CASQ1 protein that resemble those observed in patients. Studies of Ca2+ release showed an increase in Ca2+ storage in CASQ1WT COS-7 transfected cells whereas no increase was observed in CASQ1D244G. Moreover both CASQ1WT and CASQ1D244G were expressed in bacteria, purified and analysed for their ability to polymerize at increasing Ca2+ concentrations. The results obtained indicate that the CASQ1D244G protein polymerizes at lower Ca2+ levels and more rapidly than CASQ1WT. These results suggest that the CASQ1D244G mutation interferes with the correct process of Ca2+ -dependent protein polymerization causing altered intracellular calcium storage and the formation of protein aggregates., Muscle regeneration is dependent upon a complex interplay of different cell types in the muscle stem cell niche. In particular, the recently described population of interstitial fibro-adipogenic progenitors (FAPs) and satellite cells (MuSCs) establish a complex network of interactions to coordinate muscle regeneration. FAPs are able to promote satellite cell differentiation and compensate for muscle necrosis. In our recent studies, we demonstrated that FAPs are the key cellular mediators of the beneficial effect of HDAC inhibitors at early stages of Duchenne Muscular Dystrophy (DMD). Indeed, FAPs, from young mdx mice HDACi, induce myogenesis at expense of adipogenesis and enhance their ability to support MuSCs differentiation. Conversely, FAPs from old mdx mice are resistant to HDACi and repress MuSCs differentiation (Mozzetta et al., 2013; Saccone et al., 2014). Given the importance of the cross-talk between FAPs and MuSCs in DMD progression, we are currently deciphering the role of FAP-released extracellular vesicles (and in particular the exosomes - endosome derived vesicles) as mediators of the functional interactions between mononuclear cell types that contribute to muscle regeneration., Limb Girdle Muscular Dystrophies are rare genetic diseases, characterized by weakness and progressive muscular atrophy. A subfamily of LGMD2 regroups sarcoglycanopathies caused by mutations in genes coding for sarcoglycans. These transmembrane proteins are part of the dystrophin complex that protects muscle fibers against mechanical stress due to contraction. There is no treatment available for these diseases.In order to understand the molecular mechanisms implicated in sarcoglycanopathies and to identify new therapeutic targets, we are conducting two studies: 1 - SG mutants are not present at the muscle fiber membrane because they are retained in the endoplasmic reticulum by the quality control (ERQC) and they are prematurely degraded by the proteasome. To study the ERCQ pathways responsible for sarcoglycan disposal at molecular level, we first generated cell lines expressing clonally one SG mutant. Those clones are now used to investigate the SGs cellular trafficking mechanisms and then to test pharmacological compounds modulating ERCQ pathways. 2 – In these diseases, muscular atrophy affects limb muscles and infrequently head muscles. To investigate mechanisms underlying the fact that some muscles are more affected than other, we analyzed different muscles to search for molecular differences that may sign their relative sensitivity to the genetic defects. The content in micro-RNA of muscles from the limbs and face of Macaca fascicularis was explored. Experiments are in progress to analyze the function of identified micro-RNAs and to evaluate their therapeutic potential for sarcoglycanopathies. These projects will improve the knowledge on physio-pathological mechanisms of sarcoglycanopathies in order to identify new therapies for patients., Facioscapulohumeral muscular dystrophy (FSHD) is one of the most common human myopathies and arises with progressive wasting of facial mimic muscles as well as upper arms and shoulder girdle muscles. In 95% of the cases, FSHD is associated with the copy number reduction of D4Z4 macrosatellite repeats at the subtelomeric region of chromosome 4 (4q35). This change is associated with an epigenetic deregulation of the region that ultimately leads to the de-repression of nearby genes, such as DUX4 and FRG1 that have been reported to contribute to the muscular dystrophic phenotype observed in FSHD patients. The chromatin-associated lncRNA DBE-T, encoded by the FSHD locus, has been shown to be one of the main players of such event, though the molecular mechanism has not been yet fully elucidated. DBE-T is preferentially expressed in FSHD patients where it favors the transcription of the 4q35 genes thanks to the recruitment of the histone methyl transferase of the Trithorax group of epigenetic activators ASH1L. Interestingly, through a structural/functional analysis, we have recognized several DBE-T functional domains that can be exploited as new molecular targets for therapeutic purposes. Specifically, we have identified a region and the molecular mechanism required for DBE-T tethering to the chromatin. In addition, we have mapped the minimal binding domains in ASH1L and DBE-T. Finally, we have highlighted a portion of DBE-T required to positively promote transcription. In agreement, a DBE-T mutant lacking this region is unable to trigger transcription. Currently, through proteomic approaches, we are investigating DBE-T protein partners that are specific for each DBE-T functional domain. Our goal is to identify unknown molecular players that, similarly to ASH1L, are recruited by DBE-T to the FSHD locus and can play a role in the disease. Overall, our study elucidates the molecular mechanism of DBE-T in FSHD and might unveil new therapeutic targets for the treatment of the disease.

Published

2016

13. Valutazione del Potenziale Geotermico delle Regioni della Convergenza

Author

ABATE S., ACETO L., ALDIGHIERI B., ANTRONICO L., ARDIZZONE F., BALASCO M., BONIOLO G., BOTTEGHI S., BRUNO C., CAIELLI G., CALOIERO D., CAPUTI A., CINTI D., CORSI A., CHIESA S., CRISPO A., DE FRANCO R., DESIDERIO G., D'ONOFRIO D., DONATO A., FRUSTACI F., GABRIELE S., GALGARO A., GALLER V., GALLI G., GIAMPAOLO V., GIOCOLI A., GIORDANO S., GOLA G., GRECO R., GUEGUEN E., GULLÀ G., IAQUINTA P., IOVINE G., LOMBARDO G., MANZELLA A., MORRONE A., MUTO F., NORINI G., PERRONE A., PETRUCCI O., PISCITELLI S., PIEMONTE C., PIZZINO L., QUATTROCCHI F., REALI C., RIZZO E., ROMANO G., SANTILANO A., SCIARRA A., SEGRETO F., SOLERI S., TERRANOVA O., TESTA B., TRUMPY E., VAIRO E., VALENTE E., and VOTTA M.

Subjects

VIGOR, Studi di Fattibilità, Rende, Calabria, Sviluppo geotermico, Lamezia Terme-Caronte

Abstract

Valutazione del Potenziale Geotermico delle Regioni della Convergenza La geotermia è scienza, tecnologia ed energia. È la scienza che indaga le fonti di calore endogeno della Terra; è la tecnologia (impiantistica e disciplinare) che permette di accedere a tali risorse e coltivarle; è l'energia che ne scaturisce, utilizzabile sia come calore - direttamente - sia per la produzione di energia elettrica. La geotermia è utile, difficile e... bella. È una disciplina utile, perché dall'indagine geotermica e dagli impianti deriva un approvvigionamento energetico efficiente e indipendente sia dalle forniture estere sia dalle fluttuazioni del prezzo del petrolio. È una sfida difficile: si esige competenza e perizia per attingere a una fonte di energia praticamente ubiqua, ma custodita; locale e disponibile sempre, rinnovabile e, dunque, sostenibile: un'energia bella! La geotermia è una branca del sapere e una pratica tecnologica poco compresa, perché poco nota, ancora scarsamente organizzata e, spesso, poco incentivata. Serve dunque informazione, che è raccolta di dati, divulgazione, formazione. Grazie a una sapienza (oggi lo chiamano know-how) e a un'esperienza uniche nel settore, messe in campo dal Consiglio Nazionale delle Ricerche, in accordo con il Ministero dello Sviluppo Economico, la geotermia oggi è anche VIGOR. Un progetto quadriennale che ha permesso di calcolare il potenziale geotermico di alcune Regioni del sud Italia e integrarlo in mappe significative del territorio, di progettarne il possibile utilizzo tramite impianti tecnologicamente ed economicamente realizzabili, dipanandone l'iter autorizzativo e indagandone il grado di accettabilità sociale per, infine, condividere tutto ciò (tramite opere e carte stampate e via web), affinché un'esperienza (inter)regionale diventi patrimonio condiviso. Da qui in poi, la geotermia è progetto e investimento. Ed è futuro: il nostro. Adele Manzella Coordinatrice scientifica del progetto

Published

2015

14. VIGOR: Sviluppo geotermico nella regione Calabria - Studi di Fattibilità a Rende e Lamezia Terme Caronte

Author

Abate S.(1), Aceto L.(2), Aldighieri B.(3), Antronico L.(2), Ardizzone F.(2), Balasco M.(4), Boniolo G.(3), Botteghi S.(5), Bruno C.(2), Caielli G.(3), Caloiero D.(2), Caputi A.(4), Cinti D.(6), Corsi A.(3), Chiesa S.(3), Crispo A.(2), De Franco R.(3), Desiderio G.(1), D'Onofrio D.(2), Donato A.(5), Frustaci F.(2), Gabriele S.(2), Galgaro A., Galler V.(2), Galli G.(6), Giampaolo V.(4), Giocoli A.(4), Giordano S.(2), Gola G.(5), Greco R.(2), Gueguen E.(4), Gullà G.(2), Iaquinta P.(2), Iovine G.(2), Lombardo G.(1), Manzella A.(5), Morrone A.(3), Muto F.(7), Norini G.(3), Perrone A.(4), Petrucci O.(2), Piscitelli S.(4), Piemonte C.(8), Pizzino L.(6), Quattrocchi F.(6), Reali C.(2), Rizzo E.(4), Romano G.(4), Santilano A.(5), Sciarra A.(6), Segreto F.(2), Soleri S.(2), Terranova O(2)., Testa B.(3), Trumpy E.(5), Vairo E.(2), Valente E.(2), and Votta M(4).

Subjects

VIGOR, Valutazione geotermica, Rende, Geotermia, Calabria, Lamezia Terme, Caronte

Abstract

Studio di fattibilità a Lamezia-Terme Caronte: questo studio descrive la valutazione geotermica effettuata nel sito di Terme Caronte (CZ) e la proposta tecnico-economica per lo sviluppo di un progetto impiantistico relativo a risorse geotermiche a bassa entalpia per la realizzazione di un impianto geotermico per l'essiccamento dei fanghi, dimensionato sul vicino impianto di depurazione di Lamezia Terme, e un impianto geotermico per la climatizzazione dello stabilimento termale di Terme Caronte. Considerato che lo studio del sito di Terme Caronte ha riguardato un'area estesa e si riferisce alla piana di Lamezia Terme, e che l'impianto di essiccamento fanghi reflui ha preso come esempio di applicazione quello di Lamezia Terme, il sito oggetto di studio è stato rinominato Lamezia - Terme - Caronte. Dal punto di vista della risorsa geotermica, l'area è stata scelta sia per la presenza di acque termali (Terme Caronte) mineralizzate e calde con una temperatura all'uscita di circa 39°C e sia per le possibili potenzialità in termini di utilizzo delle eventuali risorse geotermiche profonde per un uso diretto nei settori produttivi dell'area. Tali manifestazioni termali si trovano in corrispondenza di alti strutturali che mostrano in finestra tettonica le unità carbonatiche appenniniche al di sotto delle unità cristalline. Alla luce dei risultati conseguiti, ottenuti attraverso rilievi geologici di superficie, indagini geochimiche, prospezioni geofisiche ed elaborazioni dei dati sismici forniti dall'ENI, l'area di Terme Caronte risulta caratterizzata dalla presenza in profondità di potenziali serbatoi geotermici in roccia fratturata, ricoperti da terreni che costituiscono un'efficace copertura impermeabile, essendo prevalentemente impermeabili o comunque a bassa permeabilità. Il contesto geologico-strutturale che caratterizza l'area di Teme Caronte evidenzia che la risalita delle acque calde, individuata in diverse sorgenti distinte ma spazialmente vicine, avvenga attraverso l'espressione congiunta del sistema di faglie orientato localmente NE-SW e quello N-S. Inoltre, la zona di contatto con i depositi impermeabili neogenici costituisce una soglia di permeabilità che tende ad ostacolare il travaso verso la Piana di Lamezia Terme. Lo studio geochimico ha evidenziato che le acque delle sorgenti di Terme Caronte non hanno elevati mescolamenti con quelle superficiali, dimostrando la presenza di una risalita rapida lungo la fascia di interferenza tra i due sistemi tettonici indicati. Vista la presenza di elementi che identificano un'origine meteorica delle acque della sorgente Terme Caronte con scambio acqua-roccia di tipo carbonatico, il modello concettuale del sistema termale prevede che il serbatoio geotermico sia alimentato dalle acque di pioggia che si infiltrano nel settore meridionale del massiccio della Sila, penetrando nelle unità metamorfiche superficiali che risulterebbero permeabili per fratturazione soprattutto lungo le zone caratterizzate da strutture tettoniche molto importanti a carattere regionale (Tansi et al., 2007). Una volta infiltratesi, le acque si approfondiscono nel serbatoio geotermico presente nel complesso carbonatico sottostante ad una profondità di 3-4 chilometri. La mancanza di dati di pozzi profondi e le conseguenti incertezze nelle quote delle unità profonde è stata parzialmente colmata dalla perforazione di un pozzo esplorativo, il primo sondaggio in Calabria continentale a raggiungere una profondità di poco inferiore a 1 km. Il sondaggio è stato posizionato tenendo conto di limitazione logistiche (accessi e topografia) e della geologia del luogo. Purtroppo il sondaggio non ha raggiunto il serbatoio geotermico, che risulta molto profondo, pertanto le proposte impiantistiche si riferiscono a risorse di bassa termalità superficiali. Le proposte impiantistiche sviluppate per Terme Caronte si riferiscono a due distinte modalità di utilizzo della geotermia: o impianto geotermico per l'essiccamento dei fanghi provenienti dalla linea di trattamento fanghi del depuratore di acque reflue presente nella zona industriale di Lamezia Terme (a circa 5 km dalla zona di Terme Caronte). Per quanto quest'applicazione non si riferisca esattamente al sito scelto, si è pensato di sviluppare una proposta impiantistica interessante per la sua applicazione in tutte le zone nelle quali sia presente un impianto di depurazione utilizzando il calore prelevato dalla risorsa geotermica a bassa entalpia. o impianto geotermico per la climatizzazione degli uffici dello stabilimento delle Terme Caronte. Sono state valutate due iverse configurazioni di impianto di essiccamento dei fanghi, considerando l'integrale ricircolo dell'aria (CASO 1) o con espulsione dell'aria umida (CASO 2).

Published

2015

15. VIGOR: Sviluppo geotermico nella regione Sicilia - Studi di fattibilità a Mazara del Vallo e Termini Imerese, Valutazione geotermica con geofisica elitrasportata

Author

Abate S.(1), Albanese C.(2), Angelino A.(2), Balasco M.(3), Bambina B.(2), Bellani S.(4), Bertini G.(4), Botteghi S.(4), Bruno P.P.(5), Caielli G.(6), Caiozzi F.(4), Calvanese L.(5), Calvi E.(4), Caputi A.(3), Cardellicchio N.(2), Catalano R.(7), Catania M.(4), Contino A.(2), De Franco R.(6), De Rosa D.(5), Desiderio G.(1), Destro E.(4), Di Fiore V.(2), Di Sipio E.(4), Donato A.(4), Doveri M.(4), Fedi M. (8), Ferrari E.(4), di Gregorio G.(2), di Leo M.(2), Galgaro A.(4), Gennaro C.(2), Gianelli G.(4), Gibilaro C.(7), Giocoli A.(3), Giorgi C.(4), Gola G.(4), Gueguen E.(3), Iorio M.(1), La Manna M.(8), Lavarone M.(2), Lombardo G.(1), Maggi S.(9), Manzella A.(4), Maraio S.(5), Menghini A.(10), Minissale A.(4), Montanari D.(4), Montegrossi G.(4), Monteleone S.(7), Mussi M.(4), Norini G.(6), Pelosi N.(2), Perrone A.(3), Piemonte C.(11), Pierini S.(7), Piscitelli S.(3), Punzo M.(5), Rizzo E.(3), Romano G.(3), Sabatino M.(2), Santilano A.(4), Scotto di Vettimo P.(2), Tamburrino S.(2), Tarallo D.(2), Teza G.(4), Tranchida G.(2), Trifirò S.(4), Trumpy E.(4), Varriale F.(5), and Viezzoli A. (10) e Votta M. (3)

Subjects

VIGOR, Valutazione geotermica, Sicilia, Mazara del Vallo, Termini Imerese

Abstract

Studio di fattibilità a Mazara del Vallo: questo studio descrive la valutazione geotermica effettuata nel sito di Mazara del Vallo e la proposta tecnico-economica per lo sviluppo di un progetto impiantistico relativo a risorse geotermiche a media entalpia e la realizzazione di un impianto pilota per alimentare una rete di teleriscaldamento per il riscaldamento ed il raffrescamento di edifici pubblici presenti nel Comune di Mazara del Vallo. La verifica della possibilità di utilizzo della risorsa geotermica per la realizzazione dell'impianto, e la valutazione quindi della sua realizzabilità, è avvenuta mediante indagini geologiche, idrogeologiche, geochimiche, geofisiche e la realizzazione di una specifica simulazione numerica dinamica dei parametri fisico-chimici del serbatoio. L'impianto proposto consiste nella produzione centralizzata di energia termica (acqua calda a 90 °C) e la successiva produzione decentralizzata di acqua fredda mediante gruppi frigoriferi ad assorbimento localizzati presso singole e/o gruppi di utenze.

Published

2015

16. VIGOR: Sviluppo geotermico nella regione Puglia - Studi di Fattibilità a Bari e Santa Cesarea Terme

Author

Abate S.(1), Aldighieri B.(2), Ardizzone F.(3), Barnaba F.(3), Basso A.(3), Botteghi S.(4), Caielli G.(2), Calvi E.(4), Caputi A.(5), Caputo M. C.(6), Cardellicchio N.(7), De Carlo L.(6), Casarano D.(3), Desiderio G.(1), De Franco R.(2), De Leo M.(7), Donato A.(4), Dragone V.(3), Festa V.(8), Giocoli A.(5), Giornetti L.(3), Inversi B.(9), Limoni P.(3), Liotta D.(8), Lollino P.(3), Lombardo G.(1), Manzella A.(4), Masciale R.(6), Minissale A.(4), Montanari D.(4), Montegrossi G.(4), Mussi M.(4), Pagliarulo R.(3), Palladino G.(3), Parise M.(3), Perrone A.(5), Petrullo A.(5), Piemonte C., Piscitelli S.(5), Polemio M.(3), Rizzo E.(5), Romanazzi A.(3), Romano G.(5), Santaloia F.(3), Scrocca D.(9), Trizzino R.(3), and Wasowski J. (3)e Zuffianò L.E. (3)

Subjects

VIGOR, Valutazione geotermica, Santa Cesarea Terme, Puglia, Bari

Abstract

Studio di Fattibilità a Bari: questo studio descrive la valutazione geotermica effettuata nel sito di Bari e la proposta tecnico-economica per lo sviluppo di un progetto impiantistico relativo a risorse geotermiche a bassa entalpia per la realizzazione di un impianto di climatizzazione dell'Istituto di Ricerca Sulle Acque del CNR (CNR-IRSA) localizzato nella zona industriale di Bari, mediante l'abbinamento di una pompa di calore con un impianto di prelievo e re-immissione di acqua dalla falda. Dal punto di vista della risorsa geotermica, la verifica delle condizioni di sottosuolo per la realizzazione dell'impianto è avvenuta mediante indagini geologiche-geomorfologiche, idrogeologiche e la realizzazione di prove diagnostiche nel campo pozzi presente nell'area. Nel sito in esame la falda si rinviene alla profondità di circa 12÷13 m da p.c., ovvero a poco più di 2 m sul livello del mare, con una escursione massima di circa 2.2 m misurata nel periodo di osservazione 2008-2010. La temperatura dell'acqua di falda è, in quest'area, mediamente più alta rispetto alle zone limitrofe e pari a 19-20 °C. La conducibilità elettrica, già elevata nei primi metri d'acqua, aumenta con un andamento a gradini con la profondità, arrivando a toccare valori di oltre 7 mS/cm alla profondità di 38 m sotto il livello idrico. Tale andamento è legato al fenomeno dell'intrusione marina; questo giustifica una facies idrochimica clorurato-sodica dominante, nonostante la natura calcareo-dolomitica della roccia serbatoio. Dovranno essere verificate le prescrizioni che le autorità preposte indicheranno al fine di realizzare l'impianto progettato. Nel caso si dovesse utilizzare la porzione interessata dal cuneo di intrusione marina dovranno impiegarsi materiali idonei per evitare corrosione e/o incrostazioni. Per la proposta impiantistica sono state valutate quattro diverse configurazioni impiantistiche utilizzanti due diverse tipologie di pompa di calore e a copertura differenziata del fabbisogno termico: o CASO 1: pompe di calore basate su un ciclo ad assorbimento acqua geotermica-acqua calda modulare ad assorbimento alimentate da gas naturale per la completa copertura dei fabbisogni termici dell'utenza; o CASO 2: pompe di calore basate su un ciclo ad assorbimento acqua geotermica-acqua calda modulare ad assorbimento alimentate da gas naturale per la copertura del 50% della potenza termica di punta dell'utenza; o CASO 3: pompe di calore con ciclo a compressione (acqua geotermica-acqua calda a compressione) alimentate elettricamente per la completa copertura dei fabbisogni termici dell'utenza; o CASO 4: pompe di calore con ciclo a compressione (acqua geotermica-acqua calda a compressione) alimentate elettricamente per la copertura del 50% della potenza termica di punta dell'utenza.

Published

2015

17. The Moderating Role of Generation on Residents’ Support for P2P Vacation Accommodations: Millennials versus Older Generations

Author

Joan B. Garau-Vadell, Desiderio Gutiérrez-Taño, and Ricardo J. Díaz-Armas

Subjects

History of scholarship and learning. The humanities, AZ20-999, Social Sciences

Abstract

Massive-scale peer-to-peer vacation accommodation has become one of the most relevant recent trends in the tourism industry. The phenomenon coincides in time with the emergence of the millennial generation alleged to influence a distinctive behavior. Grounded in the Social Exchange Theory, the study presents a comparative analysis of millennial residents’ and previous generations’ support for P2P vacation accommodations. The article explores differences in support for the new activity, in the perception of its impacts, and on how the residents back their support. A quantitative survey was conducted with a sample of 1,285 residents from Tenerife (Spain), a major international tourist destination with a large number of P2P vacation accommodations. Results reveal that millennial residents display more support for P2P vacation accommodations. However, it is not based on structural differences in how they build their support, rather on a greater perception of positive economic, socio-cultural, and environmental impacts than previous generations. Relevant tourism destination and DMO implications are derived.

Published

2023

18. New Models for Collaborative Consumption: The Role of Consumer Attitudes Among Millennials

Author

Francisco J. García-Rodríguez, Desiderio Gutiérrez-Taño, Inés Ruiz-Rosa, and Nisamar Baute-Díaz

Subjects

History of scholarship and learning. The humanities, AZ20-999, Social Sciences

Abstract

In recent years, the phenomenon of the sharing economy has emerged strongly as a system of exchange and consumption of goods and services among individuals, mainly through digital platforms. The development of information and communication technologies and the need for a new consumption and ownership culture have been the driving forces behind this economy. However, there has been little research into people’s motivations to participate in collaborative consumption, especially among young people, who are most likely to use such a consumption model. Therefore, this paper develops an explanatory model, based on self-determination theory, to understand the motivations to participate in the sharing economy of young people, who make up the millennial generation. The model was tested using a sample of 272 people in this population segment, who expressed an interest in this type of consumption. The results confirm that participation in collaborative consumption is motivated by factors such as sustainability, enjoyment of the activity, and economic benefits.

Published

2022

19. Method for dimensioning a solar generation system, and the solar generation system obtained

Author

Lombardo G., Barberi R., Abate S., and Desiderio G.

Subjects

solar concentrator system, free-piston stirling engine

Published

2012

20. Modellazione Analitica e FEM del Meccanismo di trasferimento degli sforzi tra Fondello in Acciaio e Calcestruzzo nelle Travi PREM

Author

Desiderio, G., Latour, Massimo, and Rizzano, Gianvittorio

Published

2011

21. Metodo di dimensionamento di un generatore solare direttamente esposto alla radiazione solare e generatore solare ottenuto

Author

Lombardo G., Abate S., Desiderio G., and Barberi R.

Subjects

motore stirling free piston, concentratore solare

Published

2011

22. Laser senza specchi accordabile a tre strati

Author

PetriashviliG., Barberi R., De Santo M. P., Matranga M. A., Desiderio G., Abate S., and Lombardo G.

Subjects

Cristalli liquidi chirali, larghezza accordabile UV a NIR

Published

2009

23. Self-assembled catalytic membranes:new active interfaces for greener and advanced chemical transformations in heterogeneous phase

Author

Gugliuzza A., Aceto M.C., Bonchio M., Carraro M., Gardan M., Desiderio G., Scorrano G., and Drioli E.

Subjects

membrane

Abstract

The assisted catalysis in heterogeneous phase represents a friendly environmental tool for chemical transformations turned to the strategy of advanced process intensification. The idea to disperse a catalyst into a polymer matrix offers the attractive opportunity to overcome drawbacks concerned with the recovery, reuse, disposal and life of the compound to overcome with catalytic activity. Molecular conversion and separation steps can be further coupled in a unique selective catalytic process, resulting in high efficiency/cost ratio.

Published

2008

24. Thermally induced evolution of sol–gel grown WO3 films on ITO/glass substrates

Author

Caruso, T., primary, Castriota, M., additional, Policicchio, A., additional, Fasanella, A., additional, De Santo, M.P., additional, Ciuchi, F., additional, Desiderio, G., additional, La Rosa, S., additional, Rudolf, P., additional, Agostino, R.G., additional, and Cazzanelli, E., additional

Published

2014

25. Gli isotopi ambientali (18O, 2H e 87Sr/86Sr) nelle acque sorgive dell?appennino abruzzese: considerazioni sui circuiti sotterranei negli acquiferi carbonatici

Author

Barbieri M., Petitta M., D?Amelio L., Desiderio G., Rusi S., Marchetti A., Nanni T., and Tallini M.

Published

2003

26. Gli isotopi ambientali (2H, 18O e 87Sr/86Sr) nelle acque sorgive dell’appennino abruzzese: considerazioni sui circuiti sotterranei negli acquiferi carbonatici

Author

Barbieri M., D?amelio L., Desiderio G., Marchetti A., Nanni T., Petitta M., Rusi S., and Tallini M.

Published

2003

27. Groundwater isotopic study in the Adriatic Apennine (Central Italy): a tool for the protection of karst water resources

Author

Barbieri, M, D’Amelio, L, Desiderio, G, Marchetti, A, Nanni, T, Petitta, M, Rusi, S, and Tallini, Marco

Published

2003

28. Satisfacción del turista con la experiencia de compra de souvenirs: el caso de un destino insular masivo de sol y playa

Author

Desiderio Gutiérrez Taño, Janet Hernández Méndez, and Ricardo Jesús Díaz Armas

Subjects

Souvenir, satisfacción, destino turístico, Tenerife, Recreation. Leisure, GV1-1860

Abstract

En este estudio se contrasta parte del modelo teórico propuesto por Suhartanto (2018) en el que se determina si la satisfacción con los atributos de compra de los souvenirs influye en la satisfacción general de compra de souvenirs en un destino turístico insular masivo de sol y playa. Se ha utilizado la modelización de ecuaciones estructurales basadas en PLS con una muestra de 134 turistas en Tenerife que han comprado algún souvenir en su estancia en la isla. Los resultados sugieren que la satisfacción con los atributos de la tienda, las características del souvenir y la presentación del mismo influyen positivamente en la satisfacción general con la compra. No obstante, otros atributos del souvenir, tales como el valor y la funcionalidad, no determinan la satisfacción de compra global. Estos resultados contribuyen a ampliar la investigación realizada sobre la satisfacción de compra con los souvenirs teniendo en cuenta un destino diferente.

Published

2020

29. Análisis comparativo de la actitud del residente en destinos de sol y playa: Tenerife y Salou

Author

Ricardo J. Díaz Armas, Noemí Rabassa Figueras, Desiderio Gutiérrez Taño, and Salvador Antón Calvé

Subjects

actitud del residente, turismo, espacios turísticos, resident attitude, tourism, tourist spaces, Social Sciences

Abstract

La comprensión de los antecedentes del nivel de apoyo de los residentes al turismo es de crucial importancia para las autoridades locales, para los responsables políticos y para los empresarios, debido a que el éxito y la sostenibilidad de todo proyecto turístico depende del apoyo activo de la población local. Así, se ha afirmado que para que la industria turística sea sostenible en una comunidad debe haber una amplia participación comunitaria, así como una continua eva- luación de las percepciones de los residentes, con el objetivo de que el desarrollo turístico se mantenga consistente con el carácter y valores locales. English Understanding the background of the level of support of tourism residents is of crucial importance for local authorities, for policy makers and for entrepreneurs, because the success and sustainability of any tourism project depends on the active support of the local population. Thus, it has been affirmed that for the tourism industry to be sustainable in a community there must be a broad community participation, as well as a continuous evaluation of the perceptions of the residents, with the objective that tourism development remains consistent with the local character and values.

Published

2020

30. Analysis of knowledge tacitness in the transfer of food and beverage practices: Evidence from new chain hotels

Author

Desiderio García-Almeida and José Ballesteros-Rodríguez

Subjects

Knowledge tacitness, knowledge transfer, Business, HF5001-6182

Abstract

Knowledge is a valuable resource that can provide a firm competitive advantages. Food and beverage practices require the existence of knowledge to effectively perform the activities in this key department for many hotels. When hotel firms grow by integrating new hotels in the organizational structure, managers usually want to transfer the knowledge underlying the key practices. However, the transfer is affected by the level of knowledge tacitness, since this characteristic is considered to render the transfer more difficult. With data from 93 new chain hotels where F&B knowledge has been transferred, the results shed some light about the tacitness of F&B knowledge and its transfer. Thus, customer service knowledge is the knowledge with the lowest degree of tacitness, and food planning, production and preparation is the most tacit. The most frequent mechanism to transfer the knowledge on food planning, production and preparation and the knowledge on management and control of purchases and consumption is the use of staff from the headquarters or other chain hotels in long-term assignments; the preferred method for F&B customer service is training courses, lectures and seminars. Moreover, the tacitness of knowledge about F&B customer service negatively affects the knowledge transfer process in several success dimensions.

Published

2018

31. An Extended Model of the Theory of Planned Behaviour to Predict Local Wine Consumption Intention and Behaviour

Author

Edgar J. Sabina del Castillo, Ricardo J. Díaz Armas, and Desiderio Gutiérrez Taño

Subjects

local wine, theory of planned behaviour, consumer ethnocentrism, cosmopolitan, Chemical technology, TP1-1185

Abstract

The consumption of local agricultural products boosts the regional economy and employment whilst preserving the rural landscape and environment. In this research, the background of local wine consumption behaviour will be studied, using an extended model of the Theory of Planned Behaviour. Partial least squares structural equation modelling (PLS–SEM) was used to test the hypotheses. The study was conducted in the Canary Islands with a sample of 762 people. The results confirmed a relationship between intention and perceived behavioural control. Furthermore, the ethnocentric personality was found to have a positive influence and the cosmopolitan personality a negative influence. The personal norm and place identity were also confirmed to be related to attitudes towards such behaviour. This study contributes to the literature by adding constructs to this theory that are relevant to local wine consumption. It also addresses the implications for those involved in the marketing of local products.

Published

2021

32. User support to AFPM fluid science experiments during the D2 mission

Author

Monti, R., primary, Castagnolo, D., additional, Cavaliere, F., additional, Desiderio, G., additional, Evangelista, G., additional, Fortezza, R., additional, and Sacerdoti, F.M., additional

Published

1994

33. Marangoni flow in liquid bridge at high non-dimensional transport numbers

Author

FORTEZZA, R., primary, CASTAGNOLO, D., additional, DESIDERIO, G., additional, TANG, Z., additional, and MONTI, R., additional

Published

1993

34. INEX-MAM - An Italian facility for an interactive experiment on Marangoni migration

Author

MONTI, R., primary, CAVALIERE, F., additional, DESIDERIO, G., additional, and FORTEZZA, R., additional

Published

1993

35. Telemaxus: A telescience oriented sounding rocket experiment

Author

Monti, R., primary, Fortezza, R., additional, Desiderio, G., additional, Capuano, G., additional, and Titomanlio, D., additional

Published

1992

36. Exploring Personal and Contextual Variables of the Global Entrepreneurship Monitor through the Rasch Mathematical Model

Author

José Alberto Martínez-González, Urszula Kobylinska, and Desiderio Gutiérrez-Taño

Subjects

global entrepreneurship monitor, personal variables, contextual variables, rasch model, regional entrepreneurship, Mathematics, QA1-939

Abstract

This article studies the variables of entrepreneurship at the regional (countries) level proposed by the Global Entrepreneurship Monitor (GEM) in its periodic global reports. This response to the suggestions and concerns of various authors is related to the need to analyze the theoretical foundation of the variables used by GEM. The validity and reliability of GEM data for the scientific study of entrepreneurship are also analyzed. Finally, the potential of GEM data to manage entrepreneurship variables at the country level is studied. Data from the GEM global report and the fifty countries for which data are available on all variables are used in the study. The methodology used is the Rasch mathematical model, a valuable alternative to the Classical Theory of the Test. The results confirm the theoretical validity of GEM data, its validity and reliability for the development of scientific studies, and its potential for managing entrepreneurship variables at the country level. Both the methodology used and the conclusions obtained constitute novel contributions to this field.

Published

2021

37. Entrepreneurial potential in less innovative regions: the impact of social and cultural environment

Author

Francisco J. García-Rodríguez, Esperanza Gil-Soto, Inés Ruiz-Rosa, and Desiderio Gutiérrez-Taño

Subjects

Innovation, Entrepreneurship, Entrepreneurial intention, GUESSS project, Outermost regions, Business, HF5001-6182, Finance, HG1-9999

Abstract

Purpose - The purpose of this paper is to analyze the role that the sociocultural, family and university environment play in the entrepreneurial intention of young people in a peripheral and less innovative region. Design/methodology/approach - The authors adopted the perspective of the theory of planned behavior and made an empirical study with a sample of 1,064 Spanish university students who voluntarily participated in the GUESSS Project answering an online questionnaire. A methodology based on structural equations was used employing the partial least squares structural equation modeling estimation technique. Findings - The results show that the university environment directly influences attitude, self-confidence and motivation, and indirectly the students’ entrepreneurial intention. The social context also exerts a weak direct influence on the perceived attitudes or desires toward the option to start a business and indirectly on the intention. Originality/value - The main contribution of this paper seems to confirm what previous literature highlighted in the terms of regional specificities on the link between innovation systems, the impact of entrepreneurial potential and economic development. In this sense, the university context can play an important role in generating improvements in the entrepreneurial intention’s antecedents of young people with greater potential for innovation in peripheral regions. Therefore, when it comes to defining policies to improve entrepreneurship in these regions, it seems that the establishment of entrepreneurship education and motivation programs in universities is a very effective tool to increase perceived attitude toward the option to start a new business.

Published

2017

38. ANTECEDENTES DEL USO DE LOS MEDIOS SOCIALES POR EL TURISTA: MOTIVACIÓN, OPORTUNIDAD Y CAPACIDAD

Author

Desiderio Gutiérrez Taño, Jacques Bulchand Gidumal, Ricardo J. Díaz Armas, and Eduardo Parra López

Subjects

Geography. Anthropology. Recreation, Recreation. Leisure, GV1-1860

Abstract

El presente trabajo utiliza el modelo MOA para analizar en qué medida la motivación, la oportunidad y la capacidad de los usuarios son factores determinantes de las intenciones de uso de medios sociales en la organización y desarrollo de viajes turísticos. Las conclusiones del estudio revelan que las intenciones de uso de los medios sociales se ven afectadas por la motivación y las capacidades de los usuarios y, sin embargo, no se ven influenciadas por la oportunidad. A su vez, en las motivaciones influyen los beneficios funcionales y hedónicos, pero no los sociales.

Published

2013

39. La actitud del residente en el destino turístico de Tenerife: evaluación y tendencia

Author

Ricardo Díaz Armas and Desiderio Gutiérrez Taño

Subjects

Attitude of the resident, Planning destinations, Destination Marketing, Positioning, longitudinal study, Recreation. Leisure, GV1-1860

Abstract

The pursuit of competitive factors of the destinations is a need for the sustainable management of it. One factor to promote is a proper positioning and differential, restricted to those involved in the experiences of tourists, including the resident community interaction with the tourist. The “friendly” is an intangible basic communication strategies of many destinations that drive the choice of a destination and help to strengthen the feeling of mutual acceptance between resident and tourist, affecting visitor satisfaction. In the attitude of residents is not only important to know the reality of a moment, assessing the impact of the benefits and costs, and the effects of intrinsic and extrinsic to the resident, it is also imperative for decision-making in line with reality , permanent and constant evaluation of what happens with the attitude of the resident, is consistent or unstable over time?

Published

2010

40. Proyecto de ley de Policía Sanitaria Veterinaria de la provincia de Buenos Aires : Ejercicio de la medicina veterinaria

Author

Bernier, Desiderio G. J. and Griffin, Clodomiro

Subjects

Medicina Veterinaria, Legislación, Ciencias Veterinarias, Animales Domésticos

Abstract

Cumpliendo la misión que se sirvió confiarnos ese Consejo, tenemos el agrado de someter á su consideración el proyecto de ley de Policía Sanitaria Veterinaria para la Provincia de Buenos Aires. Al mismo tiempo, cúmplenos manifestar que la Comisión ha creído necesario ampliar este trabajo, proyectando á la vez la ley sobre ejercicio de la medicina veterinaria que no está aún reglamentada entre nosotros y que se siente la necesidad de fomentarla, dándole las garantías que les correspondan á los que tienen un título legalmente adquirido. Las dificultades que se nos han presentado en la confección del proyecto de Policía Sanitaria, han sido innumerables, en vista de que hemos procurado en lo posible, confeccionarlo de tal modo, que presente las mayores facilidades para su aplicación, á fin de obtener resultados evidentemente prácticos y que pueda adaptarse al vasto territorio de nuestra Provincia, teniendo presente la índole de nuestros hacendados, para que sea recibido como una medida protectora de sus intereses y no con las alarmas que generalmente despiertan en ellos las medidas de este género. Comprende, pues, el trabajo dos partes: la primera relativa á la reglamentación del ejercicio de la medicina veterinaria y la segunda el proyecto de ley de Polícia Sanitaria de los animales domésticos. (Proyecto de Ley presentado al Consejo Superior de Higiene por los profesores de la facultad, médicos veterinarios doctores Desiderio Bernier y Clodomiro Griffin)., Facultad de Ciencias Agrarias y Forestales

Published

1895

41. Obstetricia

Author

Bernier, Desiderio G. J.

Subjects

Obstetricia, Ciencias Veterinarias, Animales Domésticos

Abstract

La obstetricia es la ciencia de los partos, de todo lo que los precede y de todo lo que los sigue inmediatamente. Nos limitaremos, en este capítulo, á algunos conocimientos elementales, relativos á las principales hembras domésticas. Facultad de Ciencias Agrarias y Forestales

Published

1896

42. Policía sanitaria de los animales domésticos: exportación de animales (parte II) : A propósito del decreto del P. E. de la Nación

Author

Bernier, Desiderio G. J.

Subjects

animal doméstico, Ciencias Veterinarias, exportación, control sanitario

Abstract

Se tratan en el artículo los siguientes temas: Insuficiencias del Decreto del Gobierno Nacional - Desinfección de los embarcaderos y de los vagones - Curación obligatoria de la sarna y no baño previo en los puertos - Deficiencia de la inspección veterinaria que debe ser reglamentada - Necesidad de un lazareto veterinario en los puertos de embarque - Reglamentación de la alimentación y alojamiento de los animales á bordo; ingerencia inútil del Gobierno., Facultad de Ciencias Agrarias y Forestales

Published

1895

43. Conformación exterior del caballo : Bellezas y defectos (parte III)

Author

Bernier, Desiderio G. J.

Subjects

Ciencias Veterinarias, Caballos

Abstract

Se tratan en el artículo los siguientes temas: -Aplomos del caballo, (según Goubaux y Barrier). -Edad de los animales domésticos. -Fórmula dentaria. -Determinación de la edad de los animales domésticos., Facultad de Ciencias Agrarias y Forestales

Published

1895

44. Necrología : Carlos Lambert

Author

Bernier, Desiderio G. J.

Subjects

Ciencias Veterinarias, Ciencias Agrarias

Abstract

Una dolorosa noticia acaba de llegarnos de Bélgica: Carlos Lambert, ex-profesor de la Escuela Agronómica y Veterinaria de Santa Catalina, ha muerto en Gante, el 2 de Noviembre de 1895., Facultad de Ciencias Agrarias y Forestales

Published

1896

45. Manual práctico de medicina y veterinaria

Author

Bernier, Desiderio G. J. and Lan, Damián

Subjects

Medicina Veterinaria, Ciencias Veterinarias, Manuales

Abstract

Teniendo en cuenta que el arte de curar los animales lleva consigo un fin esencialmente económico, se ha observado ante todo la elección de medicamentos vulgares de escaso precio, señalando además los elementos siempre utilizables de nuestro suelo ó sustituyéndolos por el cauterio ó la hidroterapia cuando no se oponian inconvenientes, para simplificar á la vez el tratamiento. Finalmente, hemos abundado hasta en los menores detalles al indicar las causas de las enfermedades, por aquello de que vale más prevenir que curar, según el concepto moderno de la ciencia médica, pues evitándolos se hace medicina racional y barata. He aqui, ahora, el orden detallado de las materias objeto de nuestro libro: 1ª parte: Signos de la salud y de la enfermedad. O sean los elementos más indispensabtes de la fisiología y de la patología general al servido del reconocimiento clínico de un animal. 2ª parte: Medicina Veterinaria usual. Nomenclatura de las enfermedades por orden alfabético, abreviada, especificando las causas, los sintomas, el tratamiento y la manera de prevenidas. 3ª parte: Terapéutica y farmacia veterinarias. Comprende, además de un completo formulario y su modus faciendi un memorándum de los contra venenos más comunes y de la asistencia necesaria en caso de envenenamiento; algunas incompatíbilidades químicas, un cuadro de sinonimias y una tabla de solubilidad de las principales sustancias medicamentosas y su posología. 4ª parte: Ley y reglamento general de policial sanitaria de los animales, vigente en la RepúblicaArgentina. Apéndice. Principales medicamentos y útiles veterinarios que no deben faltar en un buen establecímeemo ganadero. Nómina de los médicos veterinarios recibidos en el país., Facultad de Ciencias Agrarias y Forestales

Published

1905

46. El caballo : (Obra útil al sportman y al ganadero, á los estudiantes de la Facultad de Agronomía y Veterinaria y á los de las escuelas de agricultura, á los cadetes del Colegio Militar de la Nación, y en general á todos los que el estudio y la cría del caballo interesa)

Author

Bernier, Desiderio G. J.

Subjects

Ciencias Veterinarias, Caballos, Veterinaria, Zootecnia

Abstract

Causa verdadera extrañeza la escasez de publicaciones sobre ganadería con que cuenta la República Argentina. No le queda al estanciero otro recurso, en caso de dificultad, sino guiarse por las obras europeas, escritas en un idioma que no es el suyo, y para países cuyas condiciones climatéricas, culturales, etc., son muy diferentes de las nuestras. Así se explican los resultados poco halagadores que obtienen algunos criadores en la resolución de los múltiples problemas zootécnicos. Hemos pensado que algo se podia hacer para venir en ayuda de estos hombres, que son, en resumida cuenta, los principales fiioneers de la riqueza nacional. Desde hace varios años, venimos acumulando hechos, reuniendo observaciones sobre los puntos mas importantes de ganadería: son estas observaciones, estos hechos que nos proponemos publicar en una série de obras. No tenemos la pretensión de hacer algo completamente original; por el contrario, declaramos bien alto haber bebido en muchas buenas fuentes que indicaremos en oportunidad. En una palabra, es la enseñanza de los mejores autores aplicada al país, y el fruto de nuestra experiencia que ofrecemos á nuestros lectores. Nuestro propósito es vulgarizar conocimientos útiles al ganadero; es ofrecerle consejos prácticos que podrán evitarle decepciones., Facultad de Ciencias Agrarias y Forestales

Published

1898

47. Obstetricia : Parte III

Author

Bernier, Desiderio G. J.

Subjects

Parto, Ciencias Veterinarias, amamantamiento, gestación, Superfetación

Abstract

Temas tratados: Destete Anomalías de la gestación Obstáculos dinámicos Facultad de Ciencias Agrarias y Forestales

Published

1896

48. Parálisis ó deslomamiento de los corderos

Author

Bernier, Desiderio G. J.

Subjects

Ciencias Veterinarias, corderos, Huesos

Abstract

En Enero del año pasado, el Sr. D. Rafael Hernández, hacendado del partido de Pehüajó, mandó á la Facultad tres corderos enfermos, con el fin de observarlos, determinar la causa del mal, y al mismo tiempo buscar el medio de combatirlo. El señor Decano de la Facultad me encargó de practicar los estudios del caso. Circunstancias independientes de mi voluntad me han im pedido hasta ahora relatar los resultados á los cuales he llegado., Facultad de Ciencias Agrarias y Forestales

Published

1896

49. Carbunclo : Vacuna de Pasteur

Author

Bernier, Desiderio G. J.

Subjects

Ciencias Veterinarias, Carbunco

Abstract

Temas tratados en el artículo: -Inoculaciones anticarbunclosas practicadas en la Facultad. - Comisión de vigilancia. - Nuevos experimentos. - Indolencia de nuestros estancieros. - Digno proceder de los señores Pereyra y Lorda., Facultad de Ciencias Agrarias y Forestales

Published

1895

50. La sarna en las ovejas : Medios de combatirla

Author

Bernier, Desiderio G. J.

Subjects

Ciencias Veterinarias, ovino, sarna

Abstract

La cuestión sarna está siempre á la orden del día. Al decir de muchos, las medidas tomadas por el Gobierno Nacional en los puertos de embarque han minorado considerablemente la cantidad de animales ovinos exportados. Alarmada por este hecho, la Sociedad Rural Argentina busca ahora los medios de atenuar los efectos de dichas medidas. Ha nombrado una Comisión encargada de estudiar el asunto, y el mundo ganadero está esperando con viva impaciencia y manifiesta curiosidad las conclusiones á las cuales arribará. Los veterinarios de los puertos tienen por norma de rechazar toda majada en la cual se observe una sola oveja enferma. Es contra esta medida que todos protestan. Creemos que sin razón. En efecto, la medicina veterinaria considera como sospechosa de estar contaminada de sarna á toda oveja que forma parte de una majada en la cual se ha notado uno ó varios sarnosos, ó que ha permanecido en un lugar donde ha habido sarnosos. Según este criterio de las ciencias veterinarias, es evidente que por cada animal sarnoso que rechaza el veterinario hay á lo menos dos que pueden considerarse como enfermos. La inspección veterinaria no lo afirmará porque no tendrá pruebas palpables, pero los hechos lo demostrarán á bordo durante la travesía, y sobre todo en el momento del desembarque, que es el de la inspección sanitaria en Europa, Es evidente' que el rigorismo del ministro de Hacienda de la Nación lesiona los intereses efe algunos, pero ¿qué importa eso si gana el país en general, si mejoran nuestras majadas, si el capital argentino representado por sus ganados aumenta?, Facultad de Ciencias Agrarias y Forestales

Published

1895