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3. Abstract

Author

Andries, L. J., Sys, S. U., Meulemans, A. L., Schuurkes, J. A. J., Vanheel, B., Van de Voorde, J., De Smet, P., Li, J., Van Driessche, W., Flamion, B., Foulon, S., Abramow, M., Calders, P., Eechaute, W., Lacroix, E., Weyne, I., Hoeben, D., Burvenich, C., Fransen, P., Andries, L. J., Van Bedaf, D., Demolder, M., Sys, S. U., Ouedraogo, R., Lebrun, P., Herchuelz, A., Antoine, M. -H., Vandenput, S., Votion, D., Anciaux, N., Duvivier, D. H., Art, T., Lekeux, P., Votion, D., Ghafir, Y., Vandenput, S., Art, T., Lekeux, P., Geurts, M., Hermans, E., Maloteaux, J. -M., Perrad, B., Noel, B., Lagache, F., Bister, J. L., Paquay, R., Bister, J. L., Derycke, G., Vandermeir, M. A., Paquay, R., de Brouwer, S., Porret, C. -A., Stergiopulos, N., Meister, J. -J., Verbeke, M., Van de Voorde, J., Lameire, N., De Clerck, N. M., De Schuytter, J., Tytgato, J., Buyse, G., Eggermont, J., Droogmans, G., Nilius, B., Daenens, P., Salomone, S., Feron, O., Dessy, C., Morel, N., Godfraind, T., Aloisi, A. M., Sacerdote, P., Lodi, L., Carli, G., Carobi, C., Garinei, G., Miniaci, U. C., Scotto, P., Sabatino, M., Sardo, P., Iurato, L., La Grutta, V., Bagni, M. A., Cecchi, G., Cecchini, E., Colomo, F., Garzella, P., Bottinelli, R., Harridge, S. D. H., Canepari, M., Reggiani, C., Reggiani, Saltin, Bambagioni, D., Fanò, G., Menchetti, G,, Danieli-Betto, P., Esposito, A., Betto, R., Megighian, A., Midrio, M., Betto, D. Danieli, Esposito, A., Megighian, A., Midrio, M., Orizio, C., Liberati, D., Locatelli, C., De Grandis, D., Veicsteinas, A., Angoli, D., Delia, D., Wanke, E., Bramucci, M., Miano, A., Quassinti, L., Maccari, E., Murri, O., Amici, D., Cibelli, G., Jüngling, S., Schoch, S., Gerdest, H. H., Thiel, G., Demori, I., Bottazzi, C., Voci, A., Fugassa, E., Barreca, A., Minuto, F., Gallo, G., Fulle, S., Belia, S., Menchetti, G., Cacchio, M., Fanò, G., Gastaldi, G., Laforenza, U., Ferrari, G., Rindi, G., Doni, M. G., Padoin, E., Residori, O., Cesaro, M., Toma, L., Rubini, A., Mutinelli, F, Paulesu, L., Romagnolie, R., Cintorino, M., Pippia, P., Meloni, M. A., Sciola, L., Spano, A., Cogoli-Greuter, M., Cogoli, A., Sardini, A., Mintenig, G. M., Valverde, M. A., Sepùlveda, F. V., Gill, D. R., Hyde, S. C., Higgins, C. F., McNaughton, P. A., Spena, A., Arcuri, M. T., Bonofiglio, S., Chimenti, R., Covello, C., De Cicco, T., Mazzulla, S., Martino, G., Tottene, A., Moretti, A., Pietrobon, D., Baccari, M. C., Calamai, F., Staderini, G., Cova, E., Marelli, R., Sommi, P., Ventura, U., Lombardi, A. M., Fabris, R., Pagano, C., Federspil, G., Vettor, R., Mancinelli, R., Tonali, P., Servidei, S., Romani, R., Tringali, A., Azzena, G. B., Mulè, F., Serio, R., Postorino, A., Pagano, C., Rizzato, M., Granzotto, M., Lombardi, A. M., Fabris, R., Vettor, R., Federspil, G., Sommi, P., Ricci, V., Romano, M., Ivey, K. J., Ventura, U., Vacca, G., Papillo, B., Mary, D. A. S. G., Battaglia, A., Grossini, E., Vacca, G., Papillo, B., Battaglia, A., Grossini, E., Accili, E. A., Redaelli, G., DiFrancesco, D., Antoniotti, S., Distasi, C., Lovisolo, D., Munaron, L., Bertaso, F., Assandri, R., Mazzanti, M., Bianchi, L., Arcangeli, A., Faravelli, L., Becchetti, A., Coronello, M., Mini, E., Francini, F., Olivotto, M., Wanke, E., Bigiani, A., Kim, D. -J., Roper, S. D., Carabelli, V., Lovallo, M., Magnelli, V., Zucker, H., Carbone, E., D’Angelo, E., Rossi, P., De Filippi, G., Taglietti, V., Faravelli, L., Bianchi, L., Arcangeli, A., Francini, F., Olivotto, M., Wanke, E., Francini, F., Bencini, C., Squecco, R., Guatteo, E., Bacci, A., Franceschetti, S., Avanzini, G., Wanke, E., Magnelli, V., Carbone, E., Mazzanti, M., Assandri, R., Ferroni, A., DiFrancesco, D., Navangione, A., Vellani, V., Rispoli, G., Peres, A., Centinaio, E., Giovannardi, S., Russo, G., Marcotti, W., Prigioni, I., Trequattrini, C., Harper, A. A., Petris, A., Franciolini, F., Zaza, A., Micheletti, M., Brioschi, A., Antonutto, G., Capelli, C., Girardis, M., Zamparo, P., di Prampero, P. E., Antonutto, G., Girardis, M., Tuniz, D., di Prampero, P. E., Filippi, G. M., Troiani, D., Grassi, B., Poole, D. C., Richardson, R. S., Knight, D. R., Erickson, B. K., Wagner, P. D., Aimi, B., Stilli, D., Gallo, P., Sgoifo, A., Lagrasta, C., Olivetti, G., Reali, N., Casti, A., Musso, E., Alloatti, G., Penna, C., Gallo, M. P., Levi, R. C., Fenoglio, I., Appendino, G., Gallo, P., Sgoifo, A., Medici, D., Aimi, B., Manghi, M., Stilli, D., Musso, E., Sgoifo, A., Pasini, E., Gallo, P., Aimi, B., Stilli, D., Ceconi, C., Musso, E., Baldissera, F., Cavallari, P., Locatelli, M., Bartesaghi, R., Gessi, T., Benfenati, F., Valtorta, F., Onofri, F., Poo, M., Greengard, P., Biagini, G., Sala, D., Viani§, P., Kozlov, A. V., Zini, I., Bravin, M., Tempia, F., Strata, P., Brescia, G., Di Benedetto, C., Corsi, P., Cangiano, G., Buttiglione, M., Ambrosini, M., Gennarini, G., Casadio, A., Levi, R. C., Montarolo, P. G., Cesare, P., Stoughton, R., McNaughton, P. A., D’Arcangelo, G., Dodt, H. U., Brancati, A., Zieglgänsberger, W., Errico, P., Ferraresi, A., Barmack, N. H., Pettorossi, V. E., Gasparini, S., D’Ambrosio, R., Janigro, D., DiFrancesco, D., Gritti, I., Marintti, M., Calcaterra, R., Freddi, R., Mancia, M., Imeri, I., Bianchi, S., Mancia, M., Lui, F., Gregory, K. M., Blanks, R. H. I., Giolli, R. A., Benassi, C., Corazza, R., Magherini, P. C., Bardoni, R., Belluzzi, O., Mancinelli, R., Manni, E., Azzena, G. B., Tringali, A., Romani, R., Diana, M., Fratta, W., Manzoni, D., Andre, P., Pompeiano, O., Mazzocchio, R., Rossi, A., Melis, F., Kitura, A., Caria, M. A., Asanuma, H., Melone, M, De Biasi, S, Minelli, A, Conti, F, Minelli, A, Karschin, C, DeBiasi, S, Brecha, N C, Conti, F, Monda, M., Amaro, S., Sullo, A., De Luca, B., Monda, M., Amaro, S., Sullo, A., De Luca, B., Pantò, M. R., Cicirata, F., Parenti, R., Serapide, M. F., Parenti, R., Wassef, M., Cicirata, F., Podda, M. V., Solinas, A., Chessa, G., Deriu, F., Mameli, O., Tolu, E., Pompeiano, O., Andre, P., Manzoni, D., Porro, C. A., Francescato, M. P., Cettolo, V., Diamond, M. E., Baraldi, P., Bazzocchi, M., Rivosecchi, R., Konnerth, A., Rossi, M. L., Martini, M., Pelucchi, B., Fesce, R., Santarelli, L., Schacher, S., Montarolo, P. G., Santarelli, R., Grassi, C., Valente, A., Nisticò, S., Bagetta, G., Azzena, G. B., Scuri, Rossana, Garcia-Gil, Mercedes, Mozzachiodi, Riccardo, Brunelli, Marcello, Stefani, G., Onofri, F., Vaccaro, P., Nielander, H. B., Benfenati, F., Tancredi, V., D’Antuono, M., Siniscalchi, A., Brancati, A., Avoli, M., Vellani, V., Navangione, A., Rispoli, G., Verzè, L., Buffo, A., Rossi, F., Oestreicher, A. B., Gispen, W. H., Strata, P., Zamboni, G., Amici, R., Jones, C. A., Perez, E., Domeniconi, R., Parmeggiani, P. L., Zoli, Michele, Le Novàre, Nicolas, Changeux, Jean -Pierre, Lafortuna, C. L., Reinach, E., Saibene, F., Scotto, P., Zocchi, L., Agostoni, E., and Cremaschi, D.

Published
1996
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4. Oxidative stress in denervated rat muscle

Author

ABRUZZO, PROVVIDENZA MARIA, DI TULLIO, SIMONA, MARCHIONNI, COSETTA, SGARBI, GIANLUCA, LENAZ, GIORGIO, MARINI, MARINA, Belia S., Fanó G, Zampieri S, Carraro U, Kern H, Abruzzo PM, di Tullio S, Marchionni C, Belia S, Fanó G, Zampieri S, Carraro U, Kern H, Sgarbi G, Lenaz G., and Marini M

Subjects
MITOCHONDRIA, DENERVATION, OXIDATIVE STRESS, SKELETAL MUSCLE
Abstract

Following experimental hind limb denervation in rats, we demonstrate that oxidative stress occurs and advance an hypothesis about its origin. In fact: i) ROS are formed; ii) membrane lipids are oxidised; iii) oxidised ion channels and pumps may lead to increased [Ca2+]i; all the above mentioned events increase with denervation time. In the denervated muscle, iv) mRNA abundance of cytoprotective and anti-oxidant proteins (Hsp70, Hsp27, Sod1, Catalase, Gpx1, Gpx4, Gstm1), as well as v) SOD1 enzymatic activity and HSP70i protein increase; vi) an unbalance in mitochondrial OXPHOS enzymes occurs, presumably leading to excess mitochondrial ROS production; vii) increased cPLA2α expression (mRNA) and activation (increased [Ca2+]i) may lead to increased hydroperoxides release. Since anti-oxidant defences appear inadequate to counterbalance increased ROS production with increased denervation time, an anti-oxidant therapeutic strategy seems to be advisable in the many medical conditions where the nerve-muscle connection is impaired.

Published
2010

6. Age and sex influence on oxidative damage and functional status in human skeletal muscle

Author

Fanò, G., Mecocci, P., Vecchiet, J., Belia, S., Fulle, S., Polidori, M. C., Felzani, G., Senin, U., Vecchiet, L., and Beal, M. F.

Subjects
Adult, Aged, 80 and over, Male, Aging, Sex Characteristics, Adolescent, Secale, Oxidative Stress, Sex Factors, Humans, Regression Analysis, Female, Ca(2+) Mg(2+)-ATPase, Muscle, Skeletal, Aged
Abstract

A reduction in muscle mass, with consequent decrease in strength and resistance, is commonly observed with advancing age. In this study we measured markers of oxidative damage to DNA, lipids and proteins, some antioxidant enzyme activities as well Ca2+ transport in sarcoplasmic reticulum membranes in muscle biopsies from vastus lateralis of young and elderly healthy subjects of both sexes in order to evaluate the presence of age- and sex-related differences. We found a significant increase in oxidation of DNA and lipids in the elderly group, more evident in males, and a reduction in catalase and glutathione transferase activities. The experiments on Ca2+ transport showed an abnormal functional response of aged muscle after exposure to caffeine, which increases the opening of Ca2+ channels, as well a reduced activity of the Ca2+ pump in elderly males. From these results we conclude that oxidative stress play an important role in muscle aging and that oxidative damage is much more evident in elderly males, suggesting a gender difference maybe related to hormonal factors.

Published
2002

14. IL-4 is able to reverse the CD2-mediated negative apoptotic signal to CD4- CD8- αβ and/or γδ T lymphocytes.

Author

Spinozzi, F., Nicoletti, I., Agea, E., Belia, S., Moraca, R., Migliorati, G., Riccardi, C., Grignani, F., and Bertotto, A.

Subjects
INTERLEUKIN-4, CELL-mediated lympholysis, CD4 antigen, T cell receptors, T cells, LYMPHOCYTES
Abstract

Activation of immature thymocytes or transformed T lymphocytes via T-cell receptor (TCR)/CD3 signalling can induce programmed cell death (apoptosis). Recent data indicate that anti-CD3/TCR monoclonal antibodies (mAb) also trigger apoptosis in activated (but not resting) mature peripheral blood T lymphocytes. Here we report that triggering of resting CD4- CD8- TCRαβ+ and/or TCRγδ+ via the alternative CD2-dependent activation pathway is able to induce programmed cell death. A pair of mitogenic anti-CD2 mAb provoked a dramatic rise in [Ca2+]i that was almost entirely sustained by extracellular fluxes, and the inhibition of membrane [Ca2+/ Mg2+] ATPase. The resulting endonuclease activation was able to induce DNA fragmentation, as revealed by propidium iodide staining and gel electrophoresis. Induction of apoptosis was prevented by the presence of interleukin-4 (IL-4) as well as by endonuclease inactivation with 100 μM ZnCl2, but enhanced by the contemporary block of protein kinase C. Thus it seems that in resting T lymphocytes the strong calcium signal delivered by the alternative CD2 activation pathway may act as a negative apoptotic signal in both αβ and γδ T cells with low (non-major histocompatibility complex restricted) antigenic affinity, so limiting the extension of polyclonal T-cell growth. [ABSTRACT FROM AUTHOR]

Published
1995

24. Moderate Exercise Training Induces ROS-Related Adaptations to Skeletal Muscles

Author

Arsenio Veicsteinas, Stefania Fulle, Silvia Belia, S. di Tullio, Provvidenza Maria Abruzzo, Fabio Esposito, Cosetta Marchionni, Marina Marini, Abruzzo PM, Esposito F, Marchionni C, di Tullio S, Belia S, Fulle S, Veicsteinas A, and Marini M

Subjects
Male, medicine.medical_specialty, Satellite Cells, Skeletal Muscle, Muscle Fibers, Skeletal, Physical Therapy, Sports Therapy and Rehabilitation, Biology, medicine.disease_cause, Antioxidants, Desmin, Muscle hypertrophy, Myoblasts, Rats, Sprague-Dawley, Downregulation and upregulation, Internal medicine, medicine, Animals, Receptors, Tumor Necrosis Factor, Type II, Myocyte, HSP70 Heat-Shock Proteins, Orthopedics and Sports Medicine, Muscle, Skeletal, Cell Proliferation, MUSCLE PLASTICITY, chemistry.chemical_classification, Calcium metabolism, Reactive oxygen species, Physical Education and Training, Hyperplasia, medicine.disease, Adaptation, Physiological, OXIDATIVE STRESS AND SIGNALLING, Rats, Up-Regulation, Oxidative Stress, Endocrinology, chemistry, SLOW- AND FAST-TWITCH MUSCLES, Calcium, Reactive Oxygen Species, MODERATE AEROBIC TRAINING, Oxidative stress
Abstract

Aim of the present work was the evaluation of the effects of moderate exercise training on two skeletal muscles differing for fibre-type composition, Tibialis Anterior (TA) and Soleus (SOL). Fibre adaptations, including their metabolic shift and mechanisms underlying proliferation and differentiation, oxidative stress markers, anti-oxidant and cytoprotective molecules, activity of Ca2+-handling molecules were examined. Six male 2-month-old rats trained on a treadmill for 1 h/day, 3 days/week, 14 weeks, reaching 30 m/min at the end of training. Six age-matched sedentary rats served as controls. Rats were sacrificed 24 h after the last training session. Muscle Regulatory Factors increased in both muscles, activating satellite cell proliferation, which led to moderate hypertrophy in SOL and to moderate hyperplasia in TA, where the upregulation of desmin and TNFR2 expression suggests that myotube formation by proliferating myoblasts is somehow delayed. Changes leading to a more oxidative metabolism together with the upregulation of a number of antioxidant enzymes occurred in TA. HSP70i protein was upregulated in both SOL and TA, while oxidative stress markers increased in SOL alone. The status of ionic channels and pumps was preserved. We suggest that the increase in ROS, known to be associated with exercise, underlies most observed results.

Published
2013

25. Kcnj16 (Kir5.1) Gene Ablation Causes Subfertility and Increases the Prevalence of Morphologically Abnormal Spermatozoa.

Author

Poli G, Hasan S, Belia S, Cenciarini M, Tucker SJ, Imbrici P, Shehab S, Pessia M, Brancorsini S, and D'Adamo MC

Subjects
Animals, Fertility genetics, Gene Expression Regulation, Developmental genetics, Infertility, Male pathology, Male, Membrane Potentials genetics, Mice, Mice, Knockout, Muscle, Smooth metabolism, Oocytes growth & development, Potassium metabolism, Sperm Motility genetics, Spermatozoa growth & development, Testis growth & development, Testis metabolism, Kir5.1 Channel, Infertility, Male genetics, Potassium Channels, Inwardly Rectifying genetics, Spermatozoa metabolism
Abstract

The ability of spermatozoa to swim towards an oocyte and fertilize it depends on precise K + permeability changes. Kir5.1 is an inwardly-rectifying potassium (Kir) channel with high sensitivity to intracellular H + (pHi) and extracellular K + concentration [K + ] o , and hence provides a link between pHi and [K + ] o changes and membrane potential. The intrinsic pHi sensitivity of Kir5.1 suggests a possible role for this channel in the pHi-dependent processes that take place during fertilization. However, despite the localization of Kir5.1 in murine spermatozoa, and its increased expression with age and sexual maturity, the role of the channel in sperm morphology, maturity, motility, and fertility is unknown. Here, we confirmed the presence of Kir5.1 in spermatozoa and showed strong expression of Kir4.1 channels in smooth muscle and epithelial cells lining the epididymal ducts. In contrast, Kir4.2 expression was not detected in testes. To examine the possible role of Kir5.1 in sperm physiology, we bred mice with a deletion of the Kcnj16 (Kir5.1) gene and observed that 20% of Kir5.1 knock-out male mice were infertile. Furthermore, 50% of knock-out mice older than 3 months were unable to breed. By contrast, 100% of wild-type (WT) mice were fertile. The genetic inactivation of Kcnj16 also resulted in smaller testes and a greater percentage of sperm with folded flagellum compared to WT littermates. Nevertheless, the abnormal sperm from mutant animals displayed increased progressive motility. Thus, ablation of the Kcnj16 gene identifies Kir5.1 channel as an important element contributing to testis development, sperm flagellar morphology, motility, and fertility. These findings are potentially relevant to the understanding of the complex pHi- and [K + ] o -dependent interplay between different sperm ion channels, and provide insight into their role in fertilization and infertility.

Published
2021
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26. Association of A Novel Splice Site Mutation in P/Q-Type Calcium Channels with Childhood Epilepsy and Late-Onset Slowly Progressive Non-Episodic Cerebellar Ataxia.

Author

Stendel C, D'Adamo MC, Wiessner M, Dusl M, Cenciarini M, Belia S, Nematian-Ardestani E, Bauer P, Senderek J, Klopstock T, and Pessia M

Subjects
Animals, Calcium Channels metabolism, Cells, Cultured, Cerebellar Ataxia complications, Cerebellar Ataxia pathology, Epilepsy complications, Epilepsy pathology, Humans, Male, Middle Aged, Phenotype, RNA Splicing, Xenopus, Calcium Channels genetics, Cerebellar Ataxia genetics, Epilepsy genetics, Loss of Function Mutation
Abstract

Episodic ataxia type 2 (EA2) is characterized by paroxysmal attacks of ataxia with typical onset in childhood or early adolescence. The disease is associated with mutations in the voltage-gated calcium channel alpha 1A subunit (Cav2.1) that is encoded by the CACNA1A gene. However, previously unrecognized atypical symptoms and the genetic overlap existing between EA2, spinocerebellar ataxia type 6, familial hemiplegic migraine type 1, and other neurological diseases blur the genotype/phenotype correlations, making a differential diagnosis difficult to formulate correctly and delaying early therapeutic intervention. Here we report a new clinical phenotype of a CACNA1A -associated disease characterized by absence epilepsy occurring during childhood. However, much later in life the patient displayed non-episodic, slowly progressive gait ataxia. Gene panel sequencing for hereditary ataxias led to the identification of a novel heterozygous CACNA1A mutation (c.1913 + 2T > G), altering the donor splice site of intron 14. This genetic defect was predicted to result in an in-frame deletion removing 44 amino acids from the voltage-gated calcium channel Cav2.1. An RT-PCR analysis of cDNA derived from patient skin fibroblasts confirmed the skipping of the entire exon 14. Furthermore, two-electrode voltage-clamp recordings performed from Xenopus laevis oocytes expressing a wild-type versus mutant channel showed that the genetic defect caused a complete loss of channel function. This represents the first description of distinct clinical manifestations that remarkably expand the genetic and phenotypic spectrum of CACNA1A- related diseases and should be considered for an early diagnosis and effective therapeutic intervention.

Published
2020
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27. The Arianna thread: the matching of S-100 family with the RyR's muscle receptor.

Author

Fulle S, Belia S, and Fanò Illic G

Abstract

The functional state of RyR depends on the intracellular calcium concentration and on the oxidation state of its protein components in some particular sites and of some sentinel amino acids. In addition to the regulation of the RyR channel by exogenous substances (caffeine, ryanodine), ions environmental situations (oxidative state), other components, such as some endogenous proteins present in the sarcoplasm and/or in muscle membranes that are able to determine changes in Ca 2+ channel activity. Among these, calmodulin and S-100A could determine modifications in the status of RyR channel in the skeletal muscle. The currently available data can be justified the use of a simplified S-100/CaM and RyR interaction model for the regulation of Ca 2+ release in skeletal muscle. Under resting conditions, the CaM/S100A1 binding domain on RyR 1 is predominantly dependent on S100A1. Vice versa when the intracellular Ca 2+ concentration becomes high as well as during repetitive (tetanus) stimulation, the Ca-CaM bond becomes dominant, shifting S100A1 from RyR 1 and promoting channel inactivation. This may be one of the mechanism of muscle fatigue., Competing Interests: Conflict of interest The authors declare they have no financial, personal, or other conflicts of interest.We confirm that we have read the Journal’s position on issues involved in ethical publication and affirm that this report is consistent with those guidelines.

Published
2020
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28. Small heat shock proteins in the amphibian Pelophylax bergeri: Cloning and characterization of Hsp27 and Hsp30 cDNAs and their expression analysis in ex vivo skin exposed to abiotic stresses.

Author

Simoncelli F, Lucentini L, La Porta G, Belia S, Di Rosa I, and Fagotti A

Subjects
Amino Acid Sequence genetics, Animals, Cloning, Molecular, Gene Expression Regulation, Developmental genetics, HSP27 Heat-Shock Proteins genetics, HSP30 Heat-Shock Proteins genetics, Heat-Shock Proteins, Small physiology, Ranidae physiology, Skin metabolism, Heat-Shock Proteins, Small genetics, Phylogeny, Ranidae genetics, Stress, Physiological genetics
Abstract

Small Heat Shock Proteins (sHSP) are molecular chaperones that play an essential role in maintaining protein homeostasis and promoting cell survival. In this work, for the first time, multiple cDNAs encoding for small Hsp27 and Hsp30, designed, respectively, as PbHsp27-(1-2) and PbHsp30-(1-5), were cloned and characterized in the amphibian Pelophylax bergeri, which is a suitable model for studying biological responses to environmental perturbations. Domain architecture analysis showed that PbHsp27 and PbHsp30 cDNAs displayed the typical signature motifs of the sHSP family such as the conserved α-crystallin domain flanked by variable N-terminal and C-terminal regions. Phylogenetic analysis revealed that PbHsp27 and PbHsp30 clustered, respectively, with Hsp27 and Hsp30 members of other vertebrates, but more closely with amphibians. Overall PbHsp27 and PbHsp30 transcriptional activity, analyzed by qRT-PCR, evidenced that, in ex vivo skin exposed to thermal shock and cadmium treatment, PbHsp27 and PbHsp30 mRNAs were inducible and regulated differently. This study provides the basis for future research on the potential use of PbHsp27 and PbHsp30 as biomarkers of proteotoxic stress in amphibians., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2019
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29. Dexamethasone in Glioblastoma Multiforme Therapy: Mechanisms and Controversies.

Author

Cenciarini M, Valentino M, Belia S, Sforna L, Rosa P, Ronchetti S, D'Adamo MC, and Pessia M

Abstract

Glioblastoma multiforme (GBM) is the most common and malignant of the glial tumors. The world-wide estimates of new cases and deaths annually are remarkable, making GBM a crucial public health issue. Despite the combination of radical surgery, radio and chemotherapy prognosis is extremely poor (median survival is approximately 1 year). Thus, current therapeutic interventions are highly unsatisfactory. For many years, GBM-induced brain oedema and inflammation have been widely treated with dexamethasone (DEX), a synthetic glucocorticoid (GC). A number of studies have reported that DEX also inhibits GBM cell proliferation and migration. Nevertheless, recent controversial results provided by different laboratories have challenged the widely accepted dogma concerning DEX therapy for GBM. Here, we have reviewed the main clinical features and genetic and epigenetic abnormalities underlying GBM. Finally, we analyzed current notions and concerns related to DEX effects on cerebral oedema, cancer cell proliferation and migration and clinical outcome.

Published
2019
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30. Hypoxia Modulates the Swelling-Activated Cl Current in Human Glioblastoma Cells: Role in Volume Regulation and Cell Survival.

Author

Sforna L, Cenciarini M, Belia S, Michelucci A, Pessia M, Franciolini F, and Catacuzzeno L

Subjects
Cell Hypoxia, Cell Line, Tumor, Cell Survival, Glioblastoma pathology, Humans, Osmotic Pressure physiology, Patch-Clamp Techniques methods, Cell Size, Chloride Channels metabolism, Glioblastoma metabolism, Membrane Potentials physiology
Abstract

The malignancy of glioblastoma multiforme (GBM), the most common human brain tumor, correlates with the presence of hypoxic areas, but the underlying mechanisms are unclear. GBM cells express abundant Cl channels whose activity supports cell volume and membrane potential changes, ultimately leading to cell proliferation, migration, and escaping death. In non-tumor tissues Cl channels are modulated by hypoxia, which prompted us to verify whether hypoxia would also modulate Cl channels in GBM cells. Our results show that in GBM cell lines, acute application of a hypoxic solution activates a Cl current displaying the biophysical and pharmacological features of the swelling-activated Cl current (ICl,swell ). We also found that acute hypoxia increased the cell volume by about 20%, and a 30% hypertonic solution partially inhibited the hypoxia-activated Cl current, suggesting that cell swelling and the activation of the Cl current are sequential events. Notably, the hypoxia-induced cell swelling was followed by a regulatory volume decrease (RVD) mediated mainly by ICl,swell . Since, a hypoxia-induced prolonged cell swelling is usually regarded as a death insult, we hypothesized that the hypoxia-activated Cl current could limit cell swelling and prevent necrotic death of GBM cells under hypoxic conditions. In accordance, we found that the ICl,swell inhibitor DCPIB hampered the RVD process, and more importantly it sensibly increased the hypoxia-induced necrotic death in these cells. Taken together, these results suggest that Cl channels are strongly involved in the survival of GBM cells in a hypoxic environment, and may thus represent a new therapeutic target for this malignant tumor. J. Cell. Physiol. 232: 91-100, 2017. © 2016 Wiley Periodicals, Inc., (© 2016 Wiley Periodicals, Inc.)

Published
2017
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31. Short-term cadmium exposure induces stress responses in frog (Pelophylax bergeri) skin organ culture.

Author

Simoncelli F, Belia S, Di Rosa I, Paracucchi R, Rossi R, La Porta G, Lucentini L, and Fagotti A

Subjects
Animals, Biomarkers metabolism, Organ Culture Techniques, RNA, Messenger metabolism, Skin metabolism, Skin pathology, Cadmium toxicity, Heat-Shock Proteins genetics, Metallothionein genetics, Ranidae, Skin drug effects
Abstract

There have been a few studies on the negative effects of pollutants on amphibian skin, the first structural barrier that interacts with the environment and its potential contaminants. In this study an ex vivo skin organ culture from the amphibian Pelophylax bergeri was used to evaluate cell stress responses induced by short-term exposure to cadmium (Cd), a toxic heavy metal known to be an environmental hazard to both humans and wildlife. Histopathological studies were carried out on skin explants using light microscopy and changes in the expression of stress proteins, such as Metallothionein (MT) and Heat shock proteins (HSPs), were investigated by Real-time RT-PCR. Results revealed that amphibian skin reacts to Cd-induced stress by activating biological responses such as morphological alterations and dose- and time-dependent induction of Mt and Hsp70 mRNA expression, suggesting their potential role as biomarkers of exposure to Cd. This work provides a basis for a better understanding of the tissue-specific responses of amphibian skin as a target organ to Cd exposure and its in vitro use for testing potentially harmful substances present in the environment., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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32. Reconciling the discrepancies on the involvement of large-conductance Ca(2+)-activated K channels in glioblastoma cell migration.

Author

Catacuzzeno L, Caramia M, Sforna L, Belia S, Guglielmi L, D'Adamo MC, Pessia M, and Franciolini F

Abstract

Glioblastoma (GBM) is the most common and aggressive primary brain tumor, and is notable for spreading so effectively through the brain parenchyma to make complete surgical resection virtually impossible, and prospect of life dismal. Several ion channels have been involved in GBM migration and invasion, due to their critical role in supporting volume changes and Ca(2+) influx occuring during the process. The large-conductance, Ca(2+)-activated K (BK) channels, markedly overexpressed in biopsies of patients with GBMs and in GBM cell lines, have attracted much interest and have been suggested to play a central role in cell migration and invasion as candidate channels for providing the ion efflux and consequent water extrusion that allow cell shrinkage during migration. Available experimental data on the role of BK channel in migration and invasion are not consistent though. While BK channels block typically resulted in inhibition of cell migration or in no effect, their activation would either enhance or inhibit the process. This short review reexamines the relevant available data on the topic, and presents a unifying paradigm capable of reconciling present discrepancies. According to this paradigm, BK channels would not contribute to migration under conditions where the [Ca(2+)] i is too low for their activation. They will instead positively contribute to migration for intermediate [Ca(2+)] i , insufficient as such to activate BK channels, but capable of predisposing them to cyclic activation following oscillatory [Ca(2+)] i increases. Finally, steadily active BK channels because of prolonged high [Ca(2+)] i would inhibit migration as their steady activity would be unsuitable to match the cyclic cell volume changes needed for proper cell migration.

Published
2015
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33. The role of ion channels in the hypoxia-induced aggressiveness of glioblastoma.

Author

Sforna L, Cenciarini M, Belia S, D'Adamo MC, Pessia M, Franciolini F, and Catacuzzeno L

Abstract

The malignancy of glioblastoma multiform (GBM), the most common and aggressive form of human brain tumors, strongly correlates with the presence of hypoxic areas, but the mechanisms controlling the hypoxia-induced aggressiveness are still unclear. GBM cells express a number of ion channels whose activity supports cell volume changes and increases in the cytosolic Ca(2+) concentration, ultimately leading to cell proliferation, migration or death. In several cell types it has previously been shown that low oxygen levels regulate the expression and activity of these channels, and more recent data indicate that this also occurs in GBM cells. Based on these findings, it may be hypothesized that the modulation of ion channel activity or expression by the hypoxic environment may participate in the acquisition of the aggressive phenotype observed in GBM cells residing in a hypoxic environment. If this hypothesis will be confirmed, the use of available ion channels modulators may be considered for implementing novel therapeutic strategies against these tumors.

Published
2015
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34. New insights into the relationship between mIGF-1-induced hypertrophy and Ca2+ handling in differentiated satellite cells.

Author

Guarnieri S, Morabito C, Belia S, Barberi L, Musarò A, Fanò-Illic G, and Mariggiò MA

Subjects
Animals, Electrophysiological Phenomena, Extracellular Space metabolism, Homeostasis, Hypertrophy metabolism, Insulin-Like Growth Factor I genetics, Membrane Fluidity, Mice, Mice, Transgenic, Muscle Fibers, Skeletal pathology, Muscle Fibers, Skeletal physiology, Myosin Light Chains genetics, Oxidative Stress, Calcium metabolism, Cell Differentiation, Insulin-Like Growth Factor I metabolism, Satellite Cells, Skeletal Muscle metabolism, Satellite Cells, Skeletal Muscle pathology
Abstract

Muscle regeneration involves the activation of satellite cells, is regulated at the genetic and epigenetic levels, and is strongly influenced by gene activation and environmental conditions. The aim of this study was to determine whether the overexpression of mIGF-1 can modify functional features of satellite cells during the differentiation process, particularly in relation to modifications of intracellular Ca2+ handling. Satellite cells were isolated from wild-type and MLC/mIGF-1 transgenic mice. The cells were differentiated in vitro, and morphological analyses, intracellular Ca2+ measurements, and ionic current recordings were performed. mIGF-1 overexpression accelerates satellite cell differentiation and promotes myotube hypertrophy. In addition, mIGF-1 overexpression-induced potentiation of myogenesis triggers both quantitative and qualitative changes to the control of intracellular Ca2+ handling. In particular, the differentiated MLC/mIGF-1 transgenic myotubes have reduced velocity and amplitude of intracellular Ca2+ increases after stimulation with caffeine, KCl and acetylcholine. This appears to be due, at least in part, to changes in the physico-chemical state of the sarcolemma (increased membrane lipid oxidation, increased output currents) and to increased expression of dihydropyridine voltage-operated Ca2+ channels. Interestingly, extracellular ATP and GTP evoke intracellular Ca2+ mobilization to greater extents in the MLC/mIGF-1 transgenic satellite cells, compared to the wild-type cells. These data suggest that these MLC/mIGF-1 transgenic satellite cells are more sensitive to trophic stimuli, which can potentiate the effects of mIGF-1 on the myogenic programme.

Published
2014
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35. Oxidative balance in lymphocytes from patients with nonalcoholic steatohepatitis.

Author

Belia S, Lupattelli G, Urbani E, Vaudo G, Roscini AR, Perni S, and Marsili V

Subjects
Adult, Fatty Liver epidemiology, Fatty Liver pathology, Female, Humans, Lymphocytes pathology, Male, Middle Aged, Non-alcoholic Fatty Liver Disease, Obesity diagnosis, Obesity epidemiology, Obesity metabolism, Oxidation-Reduction, Young Adult, Fatty Liver metabolism, Lymphocytes metabolism, Oxidative Stress physiology, Reactive Oxygen Species metabolism
Abstract

Oxidative stress is linked to several human diseases, including nonalcoholic steatohepatitis (NASH). In this study, lymphocytes were used as a model to study this disease. These cells offer several advantages for cellular and molecular studies such as easy accessibility, and they are easily accessible and constitute a "time-persistent" system capable of reflecting the condition of the whole organism. Lymphocytes from patients with NASH display oxidative stress features. Among the possible causes for the overproduction of reactive oxygen species in NASH lymphocytes, there might be alterations of enzymatic pathways, auto-oxidation of glucose and mitochondrial superoxide production, which, in turn, would lead to protein oxidative damage. Increased oxidative stress in lymphocytes from patients with NASH may result in a pro-oxidative environment, which, in turn, could modify the pathway of the enzymatic activities. The data confirm that an imbalance between pro-oxidant and antioxidant defense mechanisms may be an important factor in NASH.

Published
2014
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36. Oxidative stress in the denervated muscle.

Author

Abruzzo PM, di Tullio S, Marchionni C, Belia S, Fanó G, Zampieri S, Carraro U, Kern H, Sgarbi G, Lenaz G, and Marini M

Subjects
Animals, Calcium metabolism, Female, Ion Channels metabolism, Ion Pumps metabolism, Membrane Lipids metabolism, Muscle Denervation, Rats, Rats, Sprague-Dawley, Reactive Oxygen Species metabolism, Muscle, Skeletal innervation, Muscle, Skeletal metabolism, Oxidative Stress
Abstract

Following experimental hind limb denervation in rats, this study demonstrates that oxidative stress occurs and advances an hypothesis about its origin. In fact: (i) ROS are formed; (ii) membrane lipids are oxidized; (iii) oxidized ion channels and pumps may lead to increased [Ca(2+)](i); all the above mentioned events increase with denervation time. In the denervated muscle, (iv) mRNA abundance of cytoprotective and anti-oxidant proteins (Hsp70, Hsp27, Sod1, Catalase, Gpx1, Gpx4, Gstm1), as well as (v) SOD1 enzymatic activity and HSP70i protein increase; (vi) an unbalance in mitochondrial OXPHOS enzymes occurs, presumably leading to excess mitochondrial ROS production; (vii) increased cPLA2alpha expression (mRNA) and activation (increased [Ca(2+)](i)) may lead to increased hydroperoxides release. Since anti-oxidant defences appear inadequate to counterbalance increased ROS production with increased denervation time, an anti-oxidant therapeutic strategy seems to be advisable in the many medical conditions where the nerve-muscle connection is impaired.

Published
2010
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37. Oxidative-induced membrane damage in diabetes lymphocytes: effects on intracellular Ca(2 +) homeostasis.

Author

Belia S, Santilli F, Beccafico S, De Feudis L, Morabito C, Davi G, Fanò G, and Mariggiò MA

Subjects
Aged, Calcium Signaling, Case-Control Studies, Cell Membrane metabolism, Diabetes Mellitus, Type 2 pathology, Female, Homeostasis, Humans, Lymphocytes metabolism, Lymphocytes pathology, Male, Middle Aged, Reactive Oxygen Species metabolism, Signal Transduction, Calcium blood, Diabetes Mellitus, Type 2 blood, Oxidative Stress physiology
Abstract

Oxidative stress is linked to several human diseases, including diabetes. However, the intracellular signal transduction pathways regulated by reactive oxygen species (ROS) remain to be established. Deleterious effects of ROS stem from interactions with various ion transport proteins such as ion channels and pumps, primarily altering Ca(2 +) homeostasis and inducing cell dysfunction. This study characterized the Ca(2 +) transport system in lymphocytes of patients with type-2 diabetes, evaluating the possible correlation between cell modifications and the existence of specific oxidative stress damage. Lymphocytes from type-2 diabetes patients displayed oxidative stress features (accumulation of some ROS species, membrane peroxidation, increase in protein carbonyls, increase in SOD and Catalase activity) and Ca(2 +) dyshomeostasis (modified voltage-dependent and inositol 1,4,5-triphosphate-mediated Ca(2 +) channel activities, decrease in Ca(2 +) pumps activity). The data support a correlation between oxidative damage and alterations in intracellular Ca(2 +) homeostasis, possibly due to modification of the ionic control in lymphocytes of type-2 diabetes patients.

Published
2009
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38. Skeletal muscle is a primary target of SOD1G93A-mediated toxicity.

Author

Dobrowolny G, Aucello M, Rizzuto E, Beccafico S, Mammucari C, Boncompagni S, Belia S, Wannenes F, Nicoletti C, Del Prete Z, Rosenthal N, Molinaro M, Protasi F, Fanò G, Sandri M, and Musarò A

Subjects
Animals, Autophagy physiology, Mice, Mice, Transgenic, Motor Neurons metabolism, Motor Neurons pathology, Muscle Contraction, Muscle, Skeletal pathology, Muscular Atrophy pathology, Muscular Atrophy physiopathology, Mutation, Nerve Degeneration pathology, Oxidative Stress, Reactive Oxygen Species metabolism, Sarcolemma pathology, Spinal Cord pathology, Superoxide Dismutase genetics, Superoxide Dismutase-1, Muscle, Skeletal metabolism, Muscular Atrophy metabolism, Superoxide Dismutase physiology
Abstract

The antioxidant enzyme superoxide dismutase 1 (SOD1) is a critical player of the antioxidative defense whose activity is altered in several chronic diseases, including amyotrophic lateral sclerosis. However, how oxidative insult affects muscle homeostasis remains unclear. This study addresses the role of oxidative stress on muscle homeostasis and function by the generation of a transgenic mouse model expressing a mutant SOD1 gene (SOD1(G93A)) selectively in skeletal muscle. Transgenic mice developed progressive muscle atrophy, associated with a significant reduction in muscle strength, alterations in the contractile apparatus, and mitochondrial dysfunction. The analysis of molecular pathways associated with muscle atrophy revealed that accumulation of oxidative stress served as signaling molecules to initiate autophagy, one of the major intracellular degradation mechanisms. These data demonstrate that skeletal muscle is a primary target of SOD1(G93A) -mediated toxicity and disclose the molecular mechanism whereby oxidative stress triggers muscle atrophy.

Published
2008
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39. Researchers misunderstand confidence intervals and standard error bars.

Author

Belia S, Fidler F, Williams J, and Cumming G

Subjects
Humans, Confidence Intervals, Data Interpretation, Statistical, Research statistics & numerical data
Abstract

Little is known about researchers' understanding of confidence intervals (CIs) and standard error (SE) bars. Authors of journal articles in psychology, behavioral neuroscience, and medicine were invited to visit a Web site where they adjusted a figure until they judged 2 means, with error bars, to be just statistically significantly different (p < .05). Results from 473 respondents suggest that many leading researchers have severe misconceptions about how error bars relate to statistical significance, do not adequately distinguish CIs and SE bars, and do not appreciate the importance of whether the 2 means are independent or come from a repeated measures design. Better guidelines for researchers and less ambiguous graphical conventions are needed before the advantages of CIs for research communication can be realized., (copyright 2006 APA, all rights reserved.)

Published
2005
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40. Sarcopenia is more than a muscular deficit.

Author

Fulle S, Belia S, and Di Tano G

Subjects
Animals, Energy Metabolism physiology, Humans, Muscle Weakness etiology, Muscle, Skeletal pathology, Muscular Atrophy etiology, Oxidative Stress physiology, Regeneration physiology, Satellite Cells, Skeletal Muscle physiology, Sex Characteristics, Aging physiology, Muscle Weakness physiopathology, Muscle, Skeletal physiopathology, Muscular Atrophy physiopathology
Abstract

Sarcopenia is a complex process that appears in aged muscle associated with a decrease in mass, strength, and velocity of contraction. This process is the result of many molecular, cellular and functional alterations. It has been suggested that sarcopenia may be triggered by reactive oxygen species (ROS) that have accumulated throughout one's lifetime. We found a significant increase in oxidation of DNA and lipids in the elderly muscle, more evident in males, and a reduction in catalase and glutathione transferase activities. Experiments on Ca2+ transport showed an abnormal functional response of aged muscle after exposure to caffeine, which increases the opening of Ca2+ channels, as well a reduced activity of the Ca2+ pump in elderly males. From these results we concluded that oxidative stress play an important role in muscle aging and that oxidative damage is much more evident in elderly males, suggesting a gender difference may be related to hormonal factors. The progression of sarcopenia is directly related to a significant reduction of the regenerative potential of muscle normally due to a type of adult stem cells, known as satellite cells, which lie outside the sarcolemma and remain quiescent until external stimuli trigger as growth factors (IGF-1 or mIGF-1) their re-entry into the cell cycle. One possibility is that the anti oxidative capacity of satellite cells could also be altered and this, in turn, determines the decrease of their regenerative capacity. Data concerning this hypothesis are discussed

Published
2005

41. Modification of the functional capacity of sarcoplasmic reticulum membranes in patients suffering from chronic fatigue syndrome.

Author

Fulle S, Belia S, Vecchiet J, Morabito C, Vecchiet L, and Fanò G

Subjects
Adult, Calcium metabolism, Calcium-Transporting ATPases metabolism, Cytoplasm metabolism, Fatigue Syndrome, Chronic etiology, Female, Humans, Male, Middle Aged, Muscle, Skeletal metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Fatigue Syndrome, Chronic metabolism, Membrane Fluidity, Sarcoplasmic Reticulum metabolism
Abstract

In chronic fatigue syndrome, several reported alterations may be related to specific oxidative modifications in muscle. Since sarcoplasmic reticulum membranes are the basic structures involved in excitation-contraction coupling and the thiol groups of Ca(2+) channels of SR terminal cisternae are specific targets for reactive oxygen species, it is possible that excitation-contraction coupling is involved in this pathology. We investigated the possibility that abnormalities in this compartment are involved in the pathogenesis of chronic fatigue syndrome and consequently responsible for characteristic fatigue. The data presented here support this hypothesis and indicate that the sarcolemmal conduction system and some aspects of Ca(2+) transport are negatively influenced in chronic fatigue syndrome. In fact, both deregulation of pump activities (Na(+)/K(+) and Ca(2+)-ATPase) and alteration in the opening status of ryanodine channels may result from increased membrane fluidity involving sarcoplasmic reticulum membranes.

Published
2003
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42. Evaluation of indices of skeletal muscle contraction in areas of referred hyperalgesia from an artificial ureteric stone in rats.

Author

Giamberardino MA, Affaitati G, Lerza R, Fanò G, Fulle S, Belia S, Lapenna D, and Vecchiet L

Subjects
Animals, Ca(2+) Mg(2+)-ATPase metabolism, Cell Membrane physiology, Female, Microscopy, Electron, Models, Animal, Muscle Contraction physiology, Muscle, Skeletal metabolism, Muscle, Skeletal ultrastructure, Rats, Rats, Sprague-Dawley, Ryanodine metabolism, Ureteral Calculi pathology, Hyperalgesia physiopathology, Membrane Fluidity physiology, Sarcoplasmic Reticulum metabolism, Ureteral Calculi physiopathology
Abstract

This study examined indices of skeletal muscle contraction in a rat model of referred muscle hyperalgesia from artificial ureteric calculosis [left oblique muscle (OE) for ipsilateral stone]. In specimens from the left versus right OE of stone-implanted female rats, a significant increase was found in membrane fluidity (P<0.01) and Ca(2+)-ATPase activity (P<0.0001) and a significant decrease in 3H-ryanodine binding (P<0.0001) and in I band length/sarcomere length ratio (contraction index) (P<0.01). The increase in Ca(2+)-ATPase activity was directly and significantly related to the number of rats' ureteral 'crises' (P<0.02). The results indicate a state of contraction in the hyperalgesic muscle, whose extent correlates to the algogenic activity of the ureteral stone.

Published
2003
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43. Age and sex influence on oxidative damage and functional status in human skeletal muscle.

Author

Fanò G, Mecocci P, Vecchiet J, Belia S, Fulle S, Polidori MC, Felzani G, Senin U, Vecchiet L, and Beal MF

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Ca(2+) Mg(2+)-ATPase metabolism, Female, Humans, Male, Muscle, Skeletal enzymology, Muscle, Skeletal metabolism, Regression Analysis, Secale metabolism, Sex Factors, Aging physiology, Muscle, Skeletal physiology, Oxidative Stress physiology, Sex Characteristics
Abstract

A reduction in muscle mass, with consequent decrease in strength and resistance, is commonly observed with advancing age. In this study we measured markers of oxidative damage to DNA, lipids and proteins, some antioxidant enzyme activities as well Ca2+ transport in sarcoplasmic reticulum membranes in muscle biopsies from vastus lateralis of young and elderly healthy subjects of both sexes in order to evaluate the presence of age- and sex-related differences. We found a significant increase in oxidation of DNA and lipids in the elderly group, more evident in males, and a reduction in catalase and glutathione transferase activities. The experiments on Ca2+ transport showed an abnormal functional response of aged muscle after exposure to caffeine, which increases the opening of Ca2+ channels, as well a reduced activity of the Ca2+ pump in elderly males. From these results we conclude that oxidative stress play an important role in muscle aging and that oxidative damage is much more evident in elderly males, suggesting a gender difference maybe related to hormonal factors.

Published
2001
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44. Modifications of Ca2+ transport induced by glutathione in sarcoplasmic reticulum membranes of frog skeletal muscle.

Author

Belia S, Vecchiet J, Vecchiet L, and Fanó G

Subjects
Animals, Intracellular Membranes metabolism, Ion Transport drug effects, Muscle, Skeletal drug effects, Muscle, Skeletal ultrastructure, Rana esculenta, Sarcoplasmic Reticulum drug effects, Calcium metabolism, Glutathione pharmacology, Muscle, Skeletal metabolism, Sarcoplasmic Reticulum metabolism
Abstract

The Ca2+ transport across the membrane of vesicles purified from the sarcoplasmic reticulum (SR) of frog skeletal muscle is modified by raising the concentration of the reduced form of glutathione (GSH). Passive release of Ca2+ is inhibited through the direct action of GSH on ryanodine receptors while active uptake is increased by a dose-dependent stimulation of Ca2+ pumps (Ca2+ -ATPase). These effects are physiological since the concentrations of GSH utilised (0.01-10.0 mM) are compatible with the in vivo concentration of this antioxidant. They are independent of the external Ca2+ concentration and are specific for the reduced form of glutathione, since the disulphide form (GSSG) or other GSH-derivatives do not induce these effects.

Published
2000
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45. Salicylates inhibit adhesion and transmigration of T lymphocytes by preventing integrin activation induced by contact with endothelial cells.

Author

Gerli R, Paolucci C, Gresele P, Bistoni O, Fiorucci S, Muscat C, Belia S, Bertotto A, and Costantini V

Subjects
CD11 Antigens metabolism, CD18 Antigens metabolism, Calcium metabolism, Cell Adhesion drug effects, Cell Division, Cells, Cultured, Collagen, Cytokines pharmacology, Depression, Chemical, Endothelium, Vascular cytology, Endothelium, Vascular drug effects, Humans, Interleukin-2 metabolism, Ion Transport, Ionomycin pharmacology, Ionophores pharmacology, Macromolecular Substances, T-Lymphocytes cytology, T-Lymphocytes metabolism, Umbilical Veins, Anti-Inflammatory Agents, Non-Steroidal pharmacology, Aspirin pharmacology, Chemotaxis, Leukocyte drug effects, Cyclooxygenase Inhibitors pharmacology, Endothelium, Vascular physiology, Integrin beta1 metabolism, Sodium Salicylate pharmacology, T-Lymphocytes drug effects
Abstract

The inhibition of cyclooxygenase does not fully account for the spectrum of activities of nonsteroidal antiinflammatory drugs. It is evident, indeed, that regulation of inflammatory cell function may contribute in explaining some of the effects of these drugs. Tissue recruitment of T cells plays a key role in the development of chronic inflammation. Therefore, the effects of salicylates on T-cell adhesion to and migration through endothelial cell monolayers on collagen were analyzed in an in vitro static system. Aspirin and sodium salicylate reduced the ability of unstimulated T cells to adhere to and transmigrate through cytokine-activated endothelium. Although salicylates did not modify the expression of integrins on T cells, they blunted the increased adherence induced by the anti-beta2 monoclonal antibody (MoAb) KIM127 and prevented the appearance of an activation-dependent epitope of the CD11/CD18 complex, recognized by the MoAb 24, induced by contact with endothelial cells. Salicylates also induced an increase of intracellular calcium ([Ca2+]i) and activation of protein kinase C (PKC) in T cells, but not cell proliferation and interleukin (IL)-2 synthesis. The reduction of T-cell adhesiveness appears to be dependent on the increase in[Ca2+]i levels, as it could be reversed by blocking Ca2+ influx, but not by inhibiting PKC. Moreover, ionomycin at concentrations giving an increase in [Ca2+]i similar to that triggered by aspirin, strictly reproduced the T-cell phenotypic and functional changes induced by salicylates. Aspirin reduced T-cell adhesion and migration also ex vivo after infusion to healthy volunteers. These data suggest that the antiinflammatory activity of salicylates may be due, at least in part, to an interference with the integrin-mediated binding of resting T lymphocytes to activated endothelium with consequent reduction of a specific T-cell recruitment into inflammatory sites.

Published
1998

46. IL-4 is able to reverse the CD2-mediated negative apoptotic signal to CD4-CD8- alpha beta and/or gamma delta T lymphocytes.

Author

Spinozzi F, Nicoletti I, Agea E, Belia S, Moraca R, Migliorati G, Riccardi C, Grignani F, and Bertotto A

Subjects
Antibodies, Monoclonal, Apoptosis immunology, CD4 Antigens, CD8 Antigens, Calcium metabolism, Calcium-Transporting ATPases metabolism, Cells, Cultured, Humans, Inositol 1,4,5-Trisphosphate metabolism, Lymphocyte Activation, Lymphocyte Count, T-Lymphocyte Subsets immunology, CD2 Antigens metabolism, Interleukin-4 metabolism, Receptors, Antigen, T-Cell, alpha-beta metabolism, Receptors, Antigen, T-Cell, gamma-delta metabolism, Signal Transduction physiology, T-Lymphocytes metabolism
Abstract

Activation of immature thymocytes or transformed T lymphocytes via T-cell receptor (TCR)/CD3 signalling can induce programmed cell death (apoptosis). Recent data indicate that anti-CD3/TCR monoclonal antibodies (mAb) also trigger apoptosis in activated (but not resting) mature peripheral blood T lymphocytes. Here we report that triggering of resting CD4-CD8-TCR alpha beta+ and/or TCR gamma delta+ via the alternative CD2-dependent activation pathway is able to induce programmed cell death. A pair of mitogenic anti-CD2 mAb provoked a dramatic rise in [Ca2+]i that was almost entirely sustained by extracellular fluxes, and the inhibition of membrane [Ca2+/Mg2+] ATPase. The resulting endonuclease activation was able to induce DNA fragmentation, as revealed by propidium iodide staining and gel electrophoresis. Induction of apoptosis was prevented by the presence of interleukin-4 (IL-4) as well as by endonuclease inactivation with 100 microM ZnCl2, but enhanced by the contemporary block of protein kinase C. Thus it seems that in resting T lymphocytes the strong calcium signal delivered by the alternative CD2 activation pathway may act as a negative apoptotic signal in both alpha beta and gamma delta T cells with low (non-major histocompatibility complex restricted) antigenic affinity, so limiting the extension of polyclonal T-cell growth.

Published
1995

47. Nitric oxide modulates pepsinogen secretion induced by calcium-mediated agonist in guinea pig gastric chief cells.

Author

Fiorucci S, Distrutti E, Chiorean M, Santucci L, Belia S, Fano G, De Giorgio R, Stanghellini V, Corinaldesi R, and Morelli A

Subjects
Animals, Arginine analogs & derivatives, Arginine pharmacology, Calcium metabolism, Calmodulin antagonists & inhibitors, Carbachol pharmacology, Cells, Cultured, Cholecystokinin pharmacology, Citrulline biosynthesis, Cyclic GMP analysis, Egtazic Acid analogs & derivatives, Egtazic Acid pharmacology, Gastric Mucosa drug effects, Gastrins pharmacology, Guinea Pigs, Male, Nitric Oxide biosynthesis, Nitric Oxide Synthase metabolism, Terpenes pharmacology, Thapsigargin, omega-N-Methylarginine, Calcium physiology, Gastric Mucosa metabolism, Nitric Oxide physiology, Pepsinogens metabolism
Abstract

Background & Aims: Nitric oxide, a putative cellular messenger synthesized from L-arginine, is a powerful modulator of gastric motility and secretions. The aim of this study was to investigate whether (1) guinea pig gastric chief cells express NO synthase, (2) NO modulates the pepsinogen secretion and guanosine 3',5'-cyclic monophosphate (cGMP) generation induced by calcium (Ca2+)-mediated agents, and (3) NO donors and cGMP analogues stimulate pepsinogen release., Methods: Chief cells were prepared by sequential digestion with collagenase and Ca2+ chelation. NO generation was measured by determining the NO coproduct citrulline., Results: NO synthase immunoreactivities were constitutively expressed in approximately 70% chief cells. Carbachol (10 mumol/L) caused a 4- 6-fold increase in pepsinogen release, citrulline generation, intracellular Ca2+ concentration ([Ca2+]i) and cGMP concentration. These effects were concentration dependently inhibited by NG-monomethyl-L-arginine (L-NMMA). As gastrin, cholecystokinin, thapsigargin, and Ca2+ ionophore increased NO generation, [Ca2+]i seemed to regulate NO synthase activity. [Ca2+]i chelator and calmodulin antagonist inhibited the carbachol-induced pepsinogen secretion and NO generation. Preincubating the cells with L-NMMA had no effect on carbachol-stimulated inositol triphosphate generation or [Ca2+]i or Ca(2+)-dependent adenosine triphosphatase levels. Nitrovasodilator agents and 8-bromo-cGMP stimulated pepsinogen release., Conclusions: Gastric chief cells express a Ca2+/calmodulin-dependent NO synthase. NO modulates the stimulatory effect of Ca(2+)-mediated agonists on pepsinogen release.

Published
1995
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48. The S-100: a protein family in search of a function.

Author

Fanò G, Biocca S, Fulle S, Mariggiò MA, Belia S, and Calissano P

Subjects
Animals, Calcium-Binding Proteins, Cells, Cultured, Molecular Weight, Phosphorylation, S100 Proteins genetics, S100 Proteins physiology
Abstract

The S-100 is a group of low molecular weight (10-12 kD) calcium-binding proteins highly conserved among vertebrates. It is present in different tissues as dimers of homologous or different subunits (alpha, beta). In the nervous system, the S-100 exists as a mixture composed of beta beta and alpha beta dimers with the monomer beta represented more often. Its intracellular localisation is mainly restricted to the glial cytoplasmic compartment with a small fraction bound to membranes. In this compartment the S-100 acts as a potent inhibitor of phosphorylation on several substrates including the synaptosomal C-Kinase and Tau, a microtubule-associated protein. The S-100 in particular conditions, after binding with specific membrane sites (Kd = 0.2 microM; Bmax = 4.5 nM), is able to modify the activity of adenylate cyclase, probably via G-proteins. In addition, the Ca2+ homeostasis is also modulated by S-100 via an increase of specific membrane conductance and/or Ca2+ release from intracellular stores. "In vitro" and "in vivo" experiments showed that lower (nM) concentrations of extracellular S-100 beta act on glial and neuronal cells as a growth-differentiating factor. On the other hand, higher concentrations of the protein induce apoptosis of some cells such as the sympathetic-like PC12 line. Finally, data obtained from physiological (development, ageing) or pathological (dementia associated with Down's syndrome, Alzheimer's disease) conditions showed that a relationship could be established between the S-100 levels and some aspects of the statii.

Published
1995
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49. Ethanol-specific impairment of T-lymphocyte activation is caused by a transitory block in signal-transduction pathways.

Author

Spinozzi F, Agea E, Bassotti G, Belia S, Rondoni F, Broccucci L, Solinas A, Gerli R, and Bertotto A

Subjects
Adult, Antigen-Presenting Cells physiology, Antigens, CD physiology, Calcimycin pharmacology, Calcium metabolism, Cells, Cultured, Female, Humans, Inositol 1,4,5-Trisphosphate metabolism, Interleukin-1 pharmacology, Interleukin-2 pharmacology, Male, Middle Aged, T-Lymphocytes immunology, Tetradecanoylphorbol Acetate pharmacology, Ethanol toxicity, Liver Diseases, Alcoholic immunology, Lymphocyte Activation drug effects, Signal Transduction drug effects, T-Lymphocytes drug effects
Abstract

Background: Immune system derangement is characteristic of alcoholic liver cirrhosis. However, in vitro studies have never clarified the alcohol-induced T-lymphocyte dysfunction. The aim of this study was to examine any discrete phenotypical and functional abnormalities and possible impairment in transmembrane signal-transduction pathways that, if present on lymphocytes of patients with alcoholic cirrhosis, would also be reproducible after in vitro ethanol exposure of normal T cells., Methods: Lymphocytes from 25 patients were analyzed for their in vitro proliferative functions, intracellular Ca2+ fluxes, and inositol 1,4,5-triphosphate (IP3) generation. The same procedures were applied to normal T cells exposed in vitro to ethanol., Results: Lymphocytes failed to respond to anti-CD3 and anti-CD2 after in vitro stimulation, with decreased intracellular Ca2+ mobilization and IP3 generation but showed normal proliferative response to phytohemagglutinin. In vitro ethanol incubation of normal T lymphocytes resulted in rearrangement of the membrane CD45 antigen, favoring the expression of high-molecular-weight isoforms, and showed a poor blastogenic response to anti-CD3 and anti-CD2 with a decrease in intracellular Ca2+ mobilization and IP3 production. After a 6-month period of ethanol withdrawal, some patients had normalization of phenotypic and functional alterations., Conclusions: The T-lymphocyte response to specific polyclonal activators may be severely impaired in alcohol abusers. However, it seems reversible after a period of controlled ethanol withdrawal.

Published
1993
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50. NGF induces activation of phospholipase C (membrane bound) in PC12 cells.

Author

Belia S, Fulle S, Antonioli S, Salvatore AM, and Fano G

Subjects
Animals, Cell Differentiation drug effects, Enzyme Activation drug effects, Inositol Phosphates metabolism, PC12 Cells, Phosphatidylinositols metabolism, Radioimmunoassay, Rats, Nerve Growth Factors pharmacology, Type C Phospholipases metabolism
Abstract

The aim of this work is to examine if the membrane-bound Phospholipase C system is correlated with the differentiative action of Nerve Growth Factor in PC12 cells. We found that the activity of membrane-bound Phospholipase C system increased with the presence of Nerve Growth Factor at two different phases. The early phase occurs during the first minutes after the formation of Nerve Growth Factor-receptor complex and it is completed within one hour. The later phase starts two hours after Nerve Growth Factor introduction and lasts for at least a total of 48 hours. The inositol-triphosphate levels measured in intact cells by radioimmunoassay show the same pattern of activation. We think that this dual response to Nerve Growth Factor could be due to either a double separated activation of the same enzyme or the presence of two different forms of membrane-bound Phospholipase C.

Published
1991

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