Your search keyword '"Sorrentino, Vincenzo"' showing total 87 results

1. Neapoli commorantes: chiese nazionali e comunità forestiere nel viceregno spagnolo tra Cinque e Seicento.

Author

Sorrentino, Vincenzo

Abstract

This article deals with national communities in Naples and their churches during the early modern period. Florentine, Lombard, and Genoese merchants had all received special privileges that exempted them from taxes on their trading and from local jurisdiction. These three nationes had different forms of government and the foundations and following stories of their churches differed dramatically. In fact, each of them fostered its own identity in several ways, hiring artists or employing iconographies from the motherland, allowing the coexistence of a 'pantheon' of patron saints or decorating their churches with techniques that were more common abroad. The Genoese nation is probably the most difficult to outline, as often its members decided to spread their patronage into the most important Neapolitan churches rather than gather in San Giorgio dei Genovesi. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Survey on Anomalies and Faults That May Impact the Reliability of Renewable-Based Power Systems.

Author

Mariani, Valerio, Adinolfi, Giovanna, Buonanno, Amedeo, Ciavarella, Roberto, Ricca, Antonio, Sorrentino, Vincenzo, Graditi, Giorgio, and Valenti, Maria

Abstract

The decarbonization of the electricity grid is one of the actions that can help reduce fossil fuel emissions, and thus their impact on global warming in the future. This decarbonization will be achieved mainly through the integration and widespread diffusion of renewable power sources. This is also going to be supported by the shift from the paradigm of production–transmission–distribution, where electricity production oversees large-size power plants, to renewable-based distributed/diffused production, where electricity is generated very close or even by the same (group of) user(s) (or prosumers in the latter case). The number of mid-/small-size installations based on renewable energy technologies will therefore increase substantially, and the related renewable generation will be dominant against that from large-size power plants. Unfortunately, this will very likely reduce the reliability of the grid, unless appropriate countermeasures are taken/implemented, hopefully at the same time that the paradigm shift is being achieved. To this aim, it is important to identify the anomalies and main fault causes that might possibly affect some of the central renewable (wind, PV, hydrogen) and ancillary technologies that will be used to establish future renewable-based power systems. Accordingly, this paper presents a literature survey, also extending the focus to related datasets that can be used for deeper investigation. It is highlighted that the gaps mainly refer to a lack of a common taxonomy that prevents the establishment of structured knowledge in the scope of renewable-based power systems, a lack of contributions to anomalies/faults specific to wind turbines, and a lack of datasets related to electrolyzers, fuel cells, DC/x conversion, and monitoring and communication systems. Further, in the case of monitoring and communication systems, the scientific literature is both very dated, therefore not considering possible new aspects that would be currently worthy of investigation, and not oriented toward the particular domain addressed, thus considering peculiar aspects that are left out. [ABSTRACT FROM AUTHOR]

Published

2024

3. On the Impact of Renewable Generation on the Sicilian Power System in Near-Future Scenarios: A Case Study.

Author

Di Gloria, Paolo, Paradiso, Salvatore, Pede, Martina, Sorrentino, Vincenzo Maria Ettore, Vergine, Chiara, Massaro, Fabio, Vasile, Antony, and Zizzo, Gaetano

Subjects

ELECTRIC power systems, POWER plants, INDEPENDENT power producers, ELECTRIC lines, ELECTRIC power distribution grids, POWER transmission

Abstract

This paper was conceived to investigate some central issues related to the upheaval of current energy scenarios in Sicily. New power connection lines that are about to be built in the Mediterranean area, planned with a view to a constantly increasing renewable generation, encourage the carrying out of analyses on how the Sicilian electric power system will be able to make itself ready to support large power injections, especially due to new renewables plants that will be established in the region soon. This study, carried out in close collaboration with the Italian TSO Terna S.p.A and the University of Palermo, defines what the impacts of new renewable power plants will be on the Sicilian power transmission grid under intact and non-intact grid conditions. This study consists of steady-state simulations carried out using WinCreso® software version 7.62.1-3 in two energy scenarios estimated for the years 2024 and 2027, based on real connection requests by producers to Terna, and allows one to go beyond the studies conducted so far on a 2030 basis through the precise identification of network nodes or lines in difficulty. Finally, as well as presenting an interesting case study due to Sicily's strategic position in the Mediterranean Sea, this article proposes a methodological approach that can easily be adopted in other contexts and by other TSOs to analyze similar situations. [ABSTRACT FROM AUTHOR]

Published

2024

4. Towards Healthy Longevity: Comprehensive Insights from Molecular Targets and Biomarkers to Biological Clocks.

Author

Yusri, Khalishah, Kumar, Sanjay, Fong, Sheng, Gruber, Jan, and Sorrentino, Vincenzo

Subjects

BIOLOGICAL rhythms, DRUG target, OLDER people, TECHNOLOGICAL innovations, LONGEVITY

Abstract

Aging is a complex and time-dependent decline in physiological function that affects most organisms, leading to increased risk of age-related diseases. Investigating the molecular underpinnings of aging is crucial to identify geroprotectors, precisely quantify biological age, and propose healthy longevity approaches. This review explores pathways that are currently being investigated as intervention targets and aging biomarkers spanning molecular, cellular, and systemic dimensions. Interventions that target these hallmarks may ameliorate the aging process, with some progressing to clinical trials. Biomarkers of these hallmarks are used to estimate biological aging and risk of aging-associated disease. Utilizing aging biomarkers, biological aging clocks can be constructed that predict a state of abnormal aging, age-related diseases, and increased mortality. Biological age estimation can therefore provide the basis for a fine-grained risk stratification by predicting all-cause mortality well ahead of the onset of specific diseases, thus offering a window for intervention. Yet, despite technological advancements, challenges persist due to individual variability and the dynamic nature of these biomarkers. Addressing this requires longitudinal studies for robust biomarker identification. Overall, utilizing the hallmarks of aging to discover new drug targets and develop new biomarkers opens new frontiers in medicine. Prospects involve multi-omics integration, machine learning, and personalized approaches for targeted interventions, promising a healthier aging population. [ABSTRACT FROM AUTHOR]

Published

2024

5. Modeling a Zero-Emissions Hydrogen-Powered Catamaran Ferry Using AVL Cruise-M Software.

Author

Micoli, Luca, Coppola, Tommaso, Russo, Roberta, and Sorrentino, Vincenzo

Subjects

HYDROGEN as fuel, PROPULSION systems, FERRIES, FUEL cells, ELECTRIC motors, ENERGY consumption, CATAMARANS, POLYMERIC membranes, MICROBIAL fuel cells

Abstract

This work focuses on the modeling of a zero-emissions, high-speed catamaran ferry employing a full-electric propulsion system. It addresses the global emphasis on full-electric vessels to align with IMO regulations regarding ship emissions and energy efficiency improvement. Using the AVL Cruise-M software, this research verified the implementation of an onboard fuel cell power-generating system integrated with a propulsion plant, aiming to assess its dynamic performance under load variations. The catamaran was 30 m long and 10 m wide with a cruise speed of 20 knots. The power system consisted of a proton-exchange membrane fuel cell (PEM) system, with a nominal power of 1600 kWe, a battery pack with a capacity of 2 kWh, two 777 kW electric motors, and their relative balance of the plant (BoP) subsystems. The simulation results show that the battery effectively supported the PEM during the maneuvering phase, enhancing its overall performance and energy economy. [ABSTRACT FROM AUTHOR]

Published

2024

6. Early-onset motor polyneuropathy associated with a novel dominant NAGLU mutation.

Author

Lopergolo, Diego, Salvatore, Simona, Sorrentino, Vincenzo, Malandrini, Alessandro, Santorelli, Filippo Maria, and Battisti, Carla

Subjects

HEPARAN sulfate, GENETIC mutation, NEURODEGENERATION, NEUROPATHY, MUCOPOLYSACCHARIDOSIS, POLYNEUROPATHIES

Abstract

Introduction: NAGLU encodes N-acetyl-alpha-glucosaminidase, an enzyme that degrades heparan sulfate. Biallelic NAGLU mutations cause mucopolysaccharidosis IIIB, a severe childhood-onset neurodegenerative disease, while monoallelic mutations are associated to late-onset, dominantly inherited painful sensory neuropathy. However, to date, only one family with a dominant NAGLU-related neuropathy has been described. Case report: Here we describe a patient with early-onset motor polyneuropathy harboring a novel monoallelic NAGLU mutation. We found reduced NAGLU enzymatic activity thus corroborating the pathogenic role of the new variant. Discussion: Our report represents the second ever described case with dominant NAGLU-related neuropathy and the first case with early-onset motor symptoms. We underlie the importance of a thorough clinical description of this probably underestimated new clinical entity. [ABSTRACT FROM AUTHOR]

Published

2023

7. NAD + Metabolism and Interventions in Premature Renal Aging and Chronic Kidney Disease.

Author

Chanvillard, Lucie, Tammaro, Alessandra, and Sorrentino, Vincenzo

Subjects

PREMATURE aging (Medicine), CHRONIC kidney failure, HOMEOSTASIS, KIDNEY failure, KIDNEY diseases, METABOLISM

Abstract

Premature aging causes morphological and functional changes in the kidney, leading to chronic kidney disease (CKD). CKD is a global public health issue with far-reaching consequences, including cardio-vascular complications, increased frailty, shortened lifespan and a heightened risk of kidney failure. Dialysis or transplantation are lifesaving therapies, but they can also be debilitating. Currently, no cure is available for CKD, despite ongoing efforts to identify clinical biomarkers of premature renal aging and molecular pathways of disease progression. Kidney proximal tubular epithelial cells (PTECs) have high energy demand, and disruption of their energy homeostasis has been linked to the progression of kidney disease. Consequently, metabolic reprogramming of PTECs is gaining interest as a therapeutic tool. Preclinical and clinical evidence is emerging that NAD+ homeostasis, crucial for PTECs' oxidative metabolism, is impaired in CKD, and administration of dietary NAD+ precursors could have a prophylactic role against age-related kidney disease. This review describes the biology of NAD+ in the kidney, including its precursors and cellular roles, and discusses the importance of NAD+ homeostasis for renal health. Furthermore, we provide a comprehensive summary of preclinical and clinical studies aimed at increasing NAD+ levels in premature renal aging and CKD. [ABSTRACT FROM AUTHOR]

Published

2023

8. Bartolomeo Passerotti a Roma: una perduta commissione giovanile attraverso un documento inedito.

Author

Sorrentino, Vincenzo

Abstract

The youth and the first Roman stay of Bartolomeo Passerotti are relatively unknown. An unpublished document, discovered in the Archivio di Stato in Florence, and consisting of three different legal depositions, enriches the understanding of his Roman years with a new commission, the knowledge of which was previously lost. The work in question was a mural painting made for a 'deposito' - a provisional burial - commissioned by a member of the Bardi di Vemio family. It was originally set in a chapel once standing between the faqade of the Roman church of S. Maria del Popolo and the adjacent city gate; most probably the chapel had already been demolished when the three depositions were collected. The document in question will shed light on Passerotti's acquaintances in Rome and may represent a clue to understanding his first step and better assessing his first patrons' milieu. [ABSTRACT FROM AUTHOR]

Published

2023

9. Loss-of-rescue of Ryr1I4895T-related pathology by the genetic inhibition of the ER stress response mediator CHOP.

Author

Germani, Serena, Marchetti, Alessia Celeste, Guidarelli, Andrea, Cantoni, Orazio, Sorrentino, Vincenzo, and Zito, Ester

Subjects

UNFOLDED protein response, RYANODINE receptors, SARCOPLASMIC reticulum, PATHOLOGY, SKELETAL muscle, ENDOPLASMIC reticulum

Abstract

RYR1 is the gene encoding the ryanodine receptor 1, a calcium release channel of the endo/sarcoplasmic reticulum. I4898T in RYR1 is one of the most common mutations that give rise to central core disease (CCD), with a variable phenotype ranging from mild to severe myopathy to lethal early-onset core-rod myopathy. Mice with the corresponding I4895T mutation in Ryr1 present mild myopathy when the mutation is heterozygous while I4895T homozygous is perinatal-lethal. Here we show that skeletal muscles of I4895T homozygous mice at birth present signs of stress of the endoplasmic reticulum (ER stress) and of the related unfolded protein response (UPR) with increased levels of the maladaptive mediators CHOP and ERO1. To gain information on the role of CHOP in the pathogenesis of RYR1I4895T-related myopathy, we generated compound Ryr1I4895T, Chop knock-out (-/-) mice. However, the genetic deletion of Chop, although it attenuates ER stress in the skeletal muscle of the newborns, does not rescue any phenotypic or functional features of Ryr1I4895T in mice: neither the perinatal-lethal phenotype nor the inability of Ryr1I4895T to respond to its agonist caffeine, but protects from ER stress-induced apoptosis. These findings suggest that genetic deletion of the ER stress response mediator CHOP is not sufficient to counteract the pathological Ryr1I4895T phenotype. [ABSTRACT FROM AUTHOR]

Published

2022

10. Ryanodine receptor 1 (RYR1) mutations in two patients with tubular aggregate myopathy.

Author

Vattemi, Gaetano Nicola Alfio, Rossi, Daniela, Galli, Lucia, Catallo, Maria Rosaria, Pancheri, Elia, Marchetto, Giulia, Cisterna, Barbara, Malatesta, Manuela, Pierantozzi, Enrico, Tonin, Paola, and Sorrentino, Vincenzo

Subjects

MALIGNANT hyperthermia, RYANODINE receptors, MAGNETIC resonance imaging, MUSCLE diseases, CREATINE kinase

Abstract

Two likely causative mutations in the RYR1 gene were identified in two patients with myopathy with tubular aggregates, but no evidence of cores or core‐like pathology on muscle biopsy. These patients were clinically evaluated and underwent routine laboratory investigations, electrophysiologic tests, muscle biopsy and muscle magnetic resonance imaging (MRI). They reported stiffness of the muscles following sustained activity or cold exposure and had serum creatine kinase elevation. The identified RYR1 mutations (p.Thr2206Met or p.Gly2434Arg, in patient 1 and patient 2, respectively) were previously identified in individuals with malignant hyperthermia susceptibility and are reported as causative according to the European Malignant Hyperthermia Group rules. To our knowledge, these data represent the first identification of causative mutations in the RYR1 gene in patients with tubular aggregate myopathy and extend the spectrum of histological alterations caused by mutation in the RYR1 gene. [ABSTRACT FROM AUTHOR]

Published

2022

11. Editorial: Mitochondria at the nexus of metabolism, aging, and disease.

Author

Mallilankaraman, Karthik Babu, Kennedy, Brian K., Sorrentino, Vincenzo, and Luciani, Alessandro

Subjects

METABOLISM, MITOCHONDRIA, MITOCHONDRIAL pathology, MITOCHONDRIAL physiology, CALCIUM ions, DEVELOPMENTAL biology

Abstract

This document is an editorial titled "Mitochondria at the nexus of metabolism, aging, and disease." It discusses the important role of mitochondria in cellular functions, energy metabolism, and maintaining homeostasis. Dysregulation of mitochondria has been linked to various diseases, including neurodegenerative disorders, metabolic diseases, cancer, and age-related pathologies. The editorial highlights recent breakthroughs in the understanding of mitochondria and their relevance to health, disease, and therapeutic discovery. It also explores the role of mitochondrial calcium cycling, ion channels and transporters, and amino acid metabolism in mitochondrial function and disease. The authors express gratitude to the contributors and anticipate that the research presented will contribute to a deeper understanding of mitochondria and their impact on human health. [Extracted from the article]

Published

2024

12. Allele-specific silencing by RNAi of R92Q and R173W mutations in cardiac troponin T.

Author

Migliore, Loredana, Galvagni, Federico, Pierantozzi, Enrico, Sorrentino, Vincenzo, and Rossi, Daniela

Published

2022

13. The Sarcoplasmic Reticulum of Skeletal Muscle Cells: A Labyrinth of Membrane Contact Sites.

Author

Rossi, Daniela, Pierantozzi, Enrico, Amadsun, David Osamwonuyi, Buonocore, Sara, Rubino, Egidio Maria, and Sorrentino, Vincenzo

Subjects

SARCOPLASMIC reticulum, SKELETAL muscle, MUSCLE cells, INNER ear, MUSCLE contraction, CALMODULIN, HOMEOSTASIS

Abstract

The sarcoplasmic reticulum of skeletal muscle cells is a highly ordered structure consisting of an intricate network of tubules and cisternae specialized for regulating Ca2+ homeostasis in the context of muscle contraction. The sarcoplasmic reticulum contains several proteins, some of which support Ca2+ storage and release, while others regulate the formation and maintenance of this highly convoluted organelle and mediate the interaction with other components of the muscle fiber. In this review, some of the main issues concerning the biology of the sarcoplasmic reticulum will be described and discussed; particular attention will be addressed to the structure and function of the two domains of the sarcoplasmic reticulum supporting the excitation–contraction coupling and Ca2+-uptake mechanisms. [ABSTRACT FROM AUTHOR]

Published

2022

14. Multiple regions within junctin drive its interaction with calsequestrin-1 and its localization to triads in skeletal muscle.

Author

Rossi, Daniela, Lorenzini, Stefania, Pierantozzi, Enrico, Van Petegem, Filip, Amadsun, David Osamwonuyi, and Sorrentino, Vincenzo

Subjects

MEMBRANE proteins, SARCOPLASMIC reticulum, STRIATED muscle, MUSCLE proteins, ENDOPLASMIC reticulum

Abstract

Junctin is a transmembrane protein of striated muscles, located at the junctional sarcoplasmic reticulum (SR). It is characterized by a luminal C-terminal tail, through which it functionally interacts with calsequestrin and the ryanodine receptor (RyR). Interaction with calsequestrin was ascribed to the presence of stretches of charged amino acids (aa). However, the regions able to bind calsequestrin have not been defined in detail. We report here that, in non-muscle cells, junctin and calsequestrin assemble in long linear regions within the endoplasmic reticulum, mirroring the formation of calsequestrin polymers. In differentiating myotubes, the two proteins colocalize at triads, where they assemble with other proteins of the junctional SR. By performing GST pull-down assays with distinct regions of the junctin tail, we identified two KEKE motifs that can bind calsequestrin. In addition, stretches of charged aa downstream these motifs were found to also bind calsequestrin and the RyR. Deletion of even one of these regions impaired the ability of junctin to localize at the junctional SR, suggesting that interaction with other proteins at this site represents a key element in junctin targeting.0 [ABSTRACT FROM AUTHOR]

Published

2022

15. Mitochondrial disease, mitophagy, and cellular distress in methylmalonic acidemia.

Author

Luciani, Alessandro, Denley, Matthew C. S., Govers, Larissa P., Sorrentino, Vincenzo, and Froese, D. Sean

Subjects

CELL physiology, HOMEOSTASIS, MITOCHONDRIA, PATHOLOGICAL physiology, ACIDOSIS, GLYCOLYSIS, ORGANELLES

Abstract

Mitochondria—the intracellular powerhouse in which nutrients are converted into energy in the form of ATP or heat—are highly dynamic, double-membraned organelles that harness a plethora of cellular functions that sustain energy metabolism and homeostasis. Exciting new discoveries now indicate that the maintenance of this ever changing and functionally pleiotropic organelle is particularly relevant in terminally differentiated cells that are highly dependent on aerobic metabolism. Given the central role in maintaining metabolic and physiological homeostasis, dysregulation of the mitochondrial network might therefore confer a potentially devastating vulnerability to high-energy requiring cell types, contributing to a broad variety of hereditary and acquired diseases. In this Review, we highlight the biological functions of mitochondria-localized enzymes from the perspective of understanding—and potentially reversing—the pathophysiology of inherited disorders affecting the homeostasis of the mitochondrial network and cellular metabolism. Using methylmalonic acidemia as a paradigm of complex mitochondrial dysfunction, we discuss how mitochondrial directed-signaling circuitries govern the homeostasis and physiology of specialized cell types and how these may be disturbed in disease. This Review also provides a critical analysis of affected tissues, potential molecular mechanisms, and novel cellular and animal models of methylmalonic acidemia which are being used to develop new therapeutic options for this disease. These insights might ultimately lead to new therapeutics, not only for methylmalonic acidemia, but also for other currently intractable mitochondrial diseases, potentially transforming our ability to regulate homeostasis and health. [ABSTRACT FROM AUTHOR]

Published

2021

16. Calsequestrin, a key protein in striated muscle health and disease.

Author

Rossi, Daniela, Gamberucci, Alessandra, Pierantozzi, Enrico, Amato, Caterina, Migliore, Loredana, and Sorrentino, Vincenzo

Abstract

Calsequestrin (CASQ) is the most abundant Ca2+ binding protein localized in the sarcoplasmic reticulum (SR) of skeletal and cardiac muscle. The genome of vertebrates contains two genes, CASQ1 and CASQ2. CASQ1 and CASQ2 have a high level of homology, but show specific patterns of expression. Fast-twitch skeletal muscle fibers express only CASQ1, both CASQ1 and CASQ2 are present in slow-twitch skeletal muscle fibers, while CASQ2 is the only protein present in cardiomyocytes. Depending on the intraluminal SR Ca2+ levels, CASQ monomers assemble to form large polymers, which increase their Ca2+ binding ability. CASQ interacts with triadin and junctin, two additional SR proteins which contribute to localize CASQ to the junctional region of the SR (j-SR) and also modulate CASQ ability to polymerize into large macromolecular complexes. In addition to its ability to bind Ca2+ in the SR, CASQ appears also to be able to contribute to regulation of Ca2+ homeostasis in muscle cells. Both CASQ1 and CASQ2 are able to either activate and inhibit the ryanodine receptors (RyRs) calcium release channels, likely through their interactions with junctin and triadin. Additional evidence indicates that CASQ1 contributes to regulate the mechanism of store operated calcium entry in skeletal muscle via a direct interaction with the Stromal Interaction Molecule 1 (STIM1). Mutations in CASQ2 and CASQ1 have been identified, respectively, in patients with catecholamine-induced polymorphic ventricular tachycardia and in patients with some forms of myopathy. This review will highlight recent developments in understanding CASQ1 and CASQ2 in health and diseases. [ABSTRACT FROM AUTHOR]

Published

2021

17. Molecular determinants of homo- and heteromeric interactions of Junctophilin-1 at triads in adult skeletal muscle fibers.

Author

Rossi, Daniela, Scarcella, Angela Maria, Liguori, Enea, Lorenzini, Stefania, Pierantozzi, Enrico, Kutchukian, Candice, Jacquemond, Vincent, Messa, Mirko, De Camilli, Pietro, and Sorrentino, Vincenzo

Subjects

SKELETAL muscle, MUTANT proteins, SARCOPLASMIC reticulum, CHIMERIC proteins, FIBERS

Abstract

In adult skeletal muscles, 2 junctophilin isoforms (JPH1 and JPH2) tether the sarcoplasmic reticulum (SR) to transverse tubule (T-tubule) membranes, generating stable membrane contact sites known as triads. JPHs are anchored to the membrane of the SR by a C-terminal transmembrane domain (TMD) and bind the T-tubule membrane through their cytosolic N-terminal region, which contains 8 lipid-binding (MORN) motifs. By combining expression of GFP-JPH1 deletion mutants in skeletal muscle fibers with in vitro biochemical experiments, we investigated the molecular determinants of JPH1 recruitment at triads in adult skeletal muscle fibers. We found that MORN motifs bind PI(4,5)P2 in the sarcolemma, but do not mediate the selective localization of JPH1 at the T-tubule compartment of triads. On the contrary, fusion proteins containing only the TMD of JPH1 were able to localize at the junctional SR compartment of the triad. Bimolecular fluorescence complementation experiments indicated that the TMD of JPH1 can form dimers, suggesting that the observed localization at triads may result from dimerization with the TMDs of resident JPH1. A second domain, capable of mediating homo- and heterodimeric interactions between JPH1 and JPH2 was identified in the cytosolic region. FRAP experiments revealed that removal of either one of these 2 domains in JPH1 decreases the association of the resulting mutant proteins with triads. Altogether, these results suggest that the ability to establish homo- and heterodimeric interactions with resident JPHs may support the recruitment and stability of newly synthesized JPHs at triads in adult skeletal muscle fibers. [ABSTRACT FROM AUTHOR]

Published

2019

18. Cross-species functional modules link proteostasis to human normal aging.

Author

Komljenovic, Andrea, Li, Hao, Sorrentino, Vincenzo, Kutalik, Zoltán, Auwerx, Johan, and Robinson-Rechavi, Marc

Subjects

AGING, LOW-calorie diet, COMPUTATIONAL biology, DEVELOPMENTAL biology, QUALITY control, LONGEVITY

Abstract

The evolutionarily conserved nature of the few well-known anti-aging interventions that affect lifespan, such as caloric restriction, suggests that aging-related research in model organisms is directly relevant to human aging. Since human lifespan is a complex trait, a systems-level approach will contribute to a more comprehensive understanding of the underlying aging landscape. Here, we integrate evolutionary and functional information of normal aging across human and model organisms at three levels: gene-level, process-level, and network-level. We identify evolutionarily conserved modules of normal aging across diverse taxa, and notably show proteostasis to be conserved in normal aging. Additionally, we find that mechanisms related to protein quality control network are enriched for genes harboring genetic variants associated with 22 age-related human traits and associated to caloric restriction. These results demonstrate that a systems-level approach, combined with evolutionary conservation, allows the detection of candidate aging genes and pathways relevant to human normal aging. [ABSTRACT FROM AUTHOR]

Published

2019

19. Functional Electrical Stimulation: A Possible Strategy to Improve Muscle Function in Central Core Disease?

Author

Iodice, Pierpaolo, Boncompagni, Simona, Pietrangelo, Laura, Galli, Lucia, Pierantozzi, Enrico, Rossi, Daniela, Fusella, Aurora, Caulo, Massimo, Kern, Helmut, Sorrentino, Vincenzo, and Protasi, Feliciano

Subjects

ELECTRIC stimulation, DIAGNOSIS of muscle diseases, MUSCLE disease treatment, RYANODINE receptors, PHYSICAL therapy

Abstract

Central Core Disease (CCD) is a congenital myopathy characterized by presence of amorphous central areas (or cores) lacking glycolytic/oxidative enzymes and mitochondria in skeletal muscle fibers. Most CCD families are linked to mutations in ryanodine receptor type-1 (RYR1), the gene encoding for the sarcoplasmic reticulum (SR) Ca2+ release channel of skeletal muscle. As no treatments are available for CCD, currently management of patients is essentially based on a physiotherapic approaches. Functional electrical stimulation (FES) is a technique used to deliver low energy electrical impulses to artificially stimulate selected skeletal muscle groups. Here we tested the efficacy of FES in counteracting muscle loss and improve function in the lower extremities of a 55-year-old female patient which was diagnosed with CCD at the age of 44. Genetic screening of the RyR1 gene identified a missense mutation (c.7354C>T) in exon 46 resulting in an amino acid substitution (p.R2452W) and a duplication (c.12853_12864dup12) in exon 91. The patient was treated with FES for 26 months and subjected before, during, and after training to a series of functional and structural assessments: measurement of maximum isometric force of leg extensor muscles, magnetic resonance imaging, a complete set of functional tests to assess mobility in activities of daily living, and analysis of muscle biopsies by histology and electron microscopy. All results point to an improvement in muscle structure and function induced by FES suggesting that this approach could be considered as an additional supportive measure to maintain/improve muscle function (and possibly reduce muscle loss) in CCD patients. [ABSTRACT FROM AUTHOR]

Published

2019

20. Putative endothelial progenitor cells predict long-term mortality in type-2 diabetes.

Author

Egan, Colin Gerard, Fondelli, Cecilia, Pierantozzi, Enrico, Tripepi, Giovanni, Dotta, Francesco, and Sorrentino, Vincenzo

Published

2018

21. Inactivation of the E3 Ubiquitin Ligase IDOL Attenuates Diet-Induced Obesity and Metabolic Dysfunction in Mice.

Author

van Loon, Nienke M., Ottenhoff, Roelof, Kooijman, Sander, Moeton, Martina, Scheij, Saskia, Roscam Abbing, Reinout L.P., Gijbels, Marion J.J., Levels, Johannes H.M., Sorrentino, Vincenzo, Berbée, Jimmy F.P., Rensen, Patrick C.N., and Zelcer, Noam

Published

2018

22. Repairing Mitochondrial Dysfunction in Disease.

Author

Sorrentino, Vincenzo, Menzies, Keir J., and Auwerx, Johan

Subjects

CARDIOVASCULAR diseases, CELL physiology, GENETIC disorders, HOMEOSTASIS, METABOLIC disorders, MITOCHONDRIAL pathology, NEURODEGENERATION, NEUROMUSCULAR diseases, OXIDATION-reduction reaction, PHOSPHORYLATION, PHYSIOLOGICAL stress

Abstract

Mitochondria are essential organelles for many aspects of cellular homeostasis, including energy harvesting through oxidative phosphorylation. Alterations of mitochondrial function not only impact on cellular metabolism but also critically influence whole-body metabolism, health, and life span. Diseases defined by mitochondrial dysfunction have expanded from rare monogenic disorders in a strict sense to now also include many common polygenic diseases, including metabolic, cardiovascular, neurodegenerative, and neuromuscular diseases. This has led to an intensive search for new therapeutic and preventive strategies aimed at invigorating mitochondrial function by exploiting key components of mitochondrial biogenesis, redox metabolism, dynamics, mitophagy, and the mitochondrial unfolded protein response. As such, new findings linking mitochondrial function to the progression or outcome of this ever-increasing list of diseases has stimulated the discovery and development of the first true mitochondrial drugs, which are now entering the clinic and are discussed in this review. [ABSTRACT FROM AUTHOR]

Published

2018

23. Enhancing mitochondrial proteostasis reduces amyloid-β proteotoxicity.

Author

Sorrentino, Vincenzo, Romani, Mario, Mouchiroud, Laurent, Beck, John S., Zhang, Hongbo, D'Amico, Davide, Moullan, Norman, Potenza, Francesca, Schmid, Adrien W., Rietsch, Solène, Counts, Scott E., and Auwerx, Johan

Abstract

Alzheimer's disease is a common and devastating disease characterized by aggregation of the amyloid-β peptide. However, we know relatively little about the underlying molecular mechanisms or how to treat patients with Alzheimer's disease. Here we provide bioinformatic and experimental evidence of a conserved mitochondrial stress response signature present in diseases involving amyloid-β proteotoxicity in human, mouse and Caenorhabditis elegans that involves the mitochondrial unfolded protein response and mitophagy pathways. Using a worm model of amyloid-β proteotoxicity, GMC101, we recapitulated mitochondrial features and confirmed that the induction of this mitochondrial stress response was essential for the maintenance of mitochondrial proteostasis and health. Notably, increasing mitochondrial proteostasis by pharmacologically and genetically targeting mitochondrial translation and mitophagy increases the fitness and lifespan of GMC101 worms and reduces amyloid aggregation in cells, worms and in transgenic mouse models of Alzheimer's disease. Our data support the relevance of enhancing mitochondrial proteostasis to delay amyloid-β proteotoxic diseases, such as Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published

2017

24. A novel FLNC frameshift and an OBSCN variant in a family with distal muscular dystrophy.

Author

Rossi, Daniela, Palmio, Johanna, Evilä, Anni, Galli, Lucia, Barone, Virginia, Caldwell, Tracy A., Policke, Rachel A., Aldkheil, Esraa, Berndsen, Christopher E., Wright, Nathan T., Malfatti, Edoardo, Brochier, Guy, Pierantozzi, Enrico, Jordanova, Albena, Guergueltcheva, Velina, Romero, Norma Beatriz, Hackman, Peter, Eymard, Bruno, Udd, Bjarne, and Sorrentino, Vincenzo

Subjects

MUSCULAR dystrophy, GENETIC mutation, NUCLEOTIDES, MUSCLE diseases, Z-disk (Muscle)

Abstract

A novel FLNC c.5161delG (p.Gly1722ValfsTer61) mutation was identified in two members of a French family affected by distal myopathy and in one healthy relative. This FLNC c.5161delG mutation is one nucleotide away from a previously reported FLNC mutation (c.5160delC) that was identified in patients and in asymptomatic carriers of three Bulgarian families with distal muscular dystrophy, indicating a low penetrance of the FLNC frameshift mutations. Given these similarities, we believe that the two FLNC mutations alone can be causative of distal myopathy without full penetrance. Moreover, comparative analysis of the clinical manifestations indicates that patients of the French family show an earlier onset and a complete segregation of the disease. As a possible explanation of this, the two French patients also carry a OBSCN c.13330C>T (p.Arg4444Trp) mutation. The p.Arg4444Trp variant is localized within the OBSCN Ig59 domain that, together with Ig58, binds to the ZIg9/ZIg10 domains of titin at Z-disks. Structural and functional studies indicate that this OBSCN p.Arg4444Trp mutation decreases titin binding by ~15-fold. On this line, we suggest that the combination of the OBSCN p.Arg4444Trp variant and of the FLNC c.5161delG mutation, can cooperatively affect myofibril stability and increase the penetrance of muscular dystrophy in the French family. [ABSTRACT FROM AUTHOR]

Published

2017

25. Label-free three-dimensional imaging of Caenorhabditis elegans with visible optical coherence microscopy.

Author

Coquoz, Séverine, Marchand, Paul J., Bouwens, Arno, Mouchiroud, Laurent, Sorrentino, Vincenzo, Szlag, Daniel, Auwerx, Johan, and Lasser, Theo

Subjects

CAENORHABDITIS elegans, OPTICAL coherence tomography, MEDICAL imaging systems, THREE-dimensional imaging, RADIOISOTOPES in medical diagnosis, MEDICAL research

Abstract

Fast, label-free, high-resolution, three-dimensional imaging platforms are crucial for high-throughput in vivo time-lapse studies of the anatomy of Caenorhabditis elegans, one of the most commonly used model organisms in biomedical research. Despite the needs, methods combining all these characteristics have been lacking. Here, we present label-free imaging of live Caenorhabditis elegans with three-dimensional sub-micrometer resolution using visible optical coherence microscopy (visOCM). visOCM is a versatile optical imaging method which we introduced recently for tomography of cell cultures and tissue samples. Our method is based on Fourier domain optical coherence tomography, an interferometric technique that provides three-dimensional images with high sensitivity, high acquisition rate and micrometer-scale resolution. By operating in the visible wavelength range and using a high NA objective, visOCM attains lateral and axial resolutions below 1 μm. Additionally, we use a Bessel illumination offering an extended depth of field of approximately 40 μm. We demonstrate that visOCM’s imaging properties allow rapid imaging of full sized living Caenorhabditis elegans down to the sub-cellular level. Our system opens the door to many applications such as the study of phenotypic changes related to developmental or ageing processes. [ABSTRACT FROM AUTHOR]

Published

2017

26. LRSAM1-mediated ubiquitylation is disrupted in axonal Charcot-Marie-Tooth disease 2P.

Author

Hakonen, Johanna E., Sorrentino, Vincenzo, Trezza, Rossella Avagliano, de Wissel, Marit B., van den Berg, Marlene, Bleijlevens, Boris, van Ruissen, Fred, Distel, Ben, Baas, Frank, Zelcer, Noam, and Weterman, Marian A. J.

Published

2017

27. Identification of the ER-resident E3 ubiquitin ligase RNF145 as a novel LXR-regulated gene.

Author

Cook, Emma C. L., Nelson, Jessica K., Sorrentino, Vincenzo, Koenis, Duco, Moeton, Martina, Scheij, Saskia, Ottenhoff, Roelof, Bleijlevens, Boris, Loregger, Anke, and Zelcer, Noam

Subjects

CHOLESTEROL metabolism, UBIQUITIN ligases, GENETIC regulation, STEROLS, CELL lines, LIGANDS (Biochemistry)

Abstract

Cellular cholesterol metabolism is subject to tight regulation to maintain adequate levels of this central lipid molecule. Herein, the sterol-responsive Liver X Receptors (LXRs) play an important role owing to their ability to reduce cellular cholesterol load. In this context, identifying the full set of LXR-regulated genes will contribute to our understanding of their role in cholesterol metabolism. Using global transcriptional analysis we report here the identification of RNF145 as an LXR-regulated target gene. We demonstrate that RNF145 is regulated by LXRs in both human and mouse primary cells and cell lines, and in vivo in mice. Regulation of RNF145 by LXR depends on a functional LXR-element in its proximal promotor. Consistent with LXR-dependent regulation of Rnf145 we show that regulation is lost in macrophages and fibroblasts from Lxrαβ(-/-) mice, and also in vivo in livers of Lxrα(-/-) mice treated with the LXR synthetic ligand T0901317. RNF145 is closely related to RNF139/TRC8, an E3 ligase implicated in control of SREBP processing. However, silencing of RNF145 in HepG2 or HeLa cells does not impair SREBP1/2 processing and sterol-responsive gene expression in these cells. Similar to TRC8, we demonstrate that RNF145 is localized to the ER and that it possesses intrinsic E3 ubiquitin ligase activity. In summary, we report the identification of RNF145 as an ER-resident E3 ubiquitin ligase that is transcriptionally controlled by LXR. [ABSTRACT FROM AUTHOR]

Published

2017

28. NAD+ repletion improves muscle function in muscular dystrophy and counters global PARylation.

Author

Dongryeol Ryu, Hongbo Zhang, Ropelle, Eduardo R., Sorrentino, Vincenzo, Mázala, Davi A. G., Mouchiroud, Laurent, Marshall, Philip L., Campbell, Matthew D., Ali, Amir Safi, Knowels, Gary M., Bellemin, Stéphanie, Iyer, Shama R., Xu Wang, Gariani, Karim, Sauve, Anthony A., Cantó, Carles, Conley, Kevin E., Walter, Ludivine, Lovering, Richard M., and Chin, Eva R.

Subjects

DUCHENNE muscular dystrophy, NAD (Coenzyme), NEUROMUSCULAR diseases, LABORATORY rats, STEM cells, MESSENGER RNA

Abstract

The article discusses a study which found that nicotinamide adenine dinucleotide (NAD+) repletion is effective in improving muscle function in neuromuscular diseases like Duchene's muscular dystrophy (DMD) and delay both age-related and mdx muscle stem cell senescence. In the mice study, the correlations between the abundance of messenger ribonucleic acid (mRNA) transcripts related to mitochondrial biogenesis, the dystrophin-sarcoglycan complex, and NAD+ were observed.

Published

2016

29. Not All Pericytes Are Born Equal: Pericytes from Human Adult Tissues Present Different Differentiation Properties.

Author

Vezzani, Bianca, Pierantozzi, Enrico, and Sorrentino, Vincenzo

Published

2016

30. Tissue-Specific Cultured Human Pericytes: Perivascular Cells from Smooth Muscle Tissue Have Restricted Mesodermal Differentiation Ability.

Author

Pierantozzi, Enrico, Vezzani, Bianca, Badin, Margherita, Curina, Carlo, Severi, Filiberto Maria, Petraglia, Felice, Randazzo, Davide, Rossi, Daniela, and Sorrentino, Vincenzo

Published

2016

31. Automated longitudinal monitoring of in vivo protein aggregation in neurodegenerative disease C. elegans models.

Author

Cornaglia, Matteo, Krishnamani, Gopalan, Mouchiroud, Laurent, Sorrentino, Vincenzo, Lehnert, Thomas, Auwerx, Johan, and A. M. Gijs, Martin

Subjects

NEURODEGENERATION, CAENORHABDITIS elegans, BIOMOLECULES, AMYOTROPHIC lateral sclerosis, NEMATODES

Abstract

Background: While many biological studies can be performed on cell-based systems, the investigation of molecular pathways related to complex human dysfunctions -- e.g. neurodegenerative diseases -- often requires long-term studies in animal models. The nematode Caenorhabditis elegans represents one of the best model organisms for many of these tests and, therefore, versatile and automated systems for accurate time-resolved analyses on C. elegans are becoming highly desirable tools in the field. Results: We describe a new multi-functional platform for C. elegans analytical research, enabling automated worm isolation and culture, reversible worm immobilization and long-term high-resolution imaging, and this under active control of the main culture parameters, including temperature. We employ our platform for in vivo observation of biomolecules and automated analysis of protein aggregation in a C. elegans model for amyotrophic lateral sclerosis (ALS). Our device allows monitoring the growth rate and development of each worm, at single animal resolution, within a matrix of microfluidic chambers. We demonstrate the progression of individual protein aggregates, i.e. mutated human superoxide dismutase 1 - Yellow Fluorescent Protein (SOD1-YFP) fusion proteins in the body wall muscles, for each worm and over several days. Moreover, by combining reversible worm immobilization and on-chip high-resolution imaging, our method allows precisely localizing the expression of biomolecules within the worms' tissues, as well as monitoring the evolution of single aggregates over consecutive days at the sub-cellular level. We also show the suitability of our system for protein aggregation monitoring in a C. elegans Huntington disease (HD) model, and demonstrate the system's ability to study long-term doxycycline treatment-linked modification of protein aggregation profiles in the ALS model. Conclusion: Our microfluidic-based method allows analyzing in vivo the long-term dynamics of protein aggregation phenomena in C. elegans at unprecedented resolution. Pharmacological screenings on neurodegenerative disease C. elegans models may strongly benefit from this method in the near future, because of its full automation and high-throughput potential. [ABSTRACT FROM AUTHOR]

Published

2016

32. The Deubiquitylase USP2 Regulates the LDLR Pathway by Counteracting the E3-Ubiquitin Ligase IDOL.

Author

Nelson, Jessica Kristine, Sorrentino, Vincenzo, Trezza, Rossella Avagliano, Heride, Claire, Urbe, Sylvie, Distel, Ben, and Zelcer, Noam

Published

2016

33. Identification of the (Pro)renin Receptor as a Novel Regulator of Low-Density Lipoprotein Metabolism.

Author

Xifeng Lu, Meima, Marcel E., Nelson, Jessica K., Sorrentino, Vincenzo, Loregger, Anke, Scheij, Saskia, Dekkers, Dick H. W., Mulder, Monique T., Demmers, Jeroen A. A., M-Dallinga-Thie, Geesje, Zelcer, Noam, and Danser, A. H. Jan

Published

2016

34. An Improved AHP Method for Multi-Objective Design of FSPM Machine for Wind Farm Applications.

Author

Zohoori, Alireza, Vahedi, Abolfazl, Meo, Santolo, and Sorrentino, Vincenzo

Subjects

WIND power plants, ENGINEERING, DESIGN, ARTISTIC creation, PATTERNMAKING

Abstract

Nowadays, the quickest developing rate among all kinds of renewable energy generation belongs to wind power industry. Hence, proposing an optimization framework to achieve the best design of wind power conversion system, especially wind electrical generator is required more than ever. Recently, flux switching permanent magnet (FSPM) generators that are well known for rigid structure, high torque density and lower weight have attracted high attention where these features bring more ability respect to permanent magnet synchronous (PMS) generator. In this paper a thorough analysis is carried out to find an optimal design of FSPM generator by interrogating the possibility to employ different structures for small scale wind conversion systems. To achieve this purpose, a precise challenge is laid down in investigation of various design characteristics. Hence, a multiobjective function depending on mass, cost, volume and electromagnetic performance of the generator is taken into account. In the sequel, considering multi attribute decision making (MADM) techniques, a framework based on an improved analytical hierarchy process (AHP) composed by a hybrid scheme formed by artificial neural network (ANN) and classical AHP is proposed to achieve trade-off design of the FSPM. A numerical study has been implemented on different test cases to assess the performance of the proposed framework. The obtained results prove the goodness of the proposed technique and suggest interesting solutions for the considered applications. [ABSTRACT FROM AUTHOR]

Published

2016

35. Organization of junctional sarcoplasmic reticulum proteins in skeletal muscle fibers.

Author

Barone, Virginia, Randazzo, Davide, Re, Valeria, Sorrentino, Vincenzo, and Rossi, Daniela

Abstract

The sarcoplasmic reticulum (SR) of striated muscles is specialized for releasing Ca following sarcolemma depolarization in order to activate muscle contraction. To this end, the SR forms a network of longitudinal tubules and cisternae that surrounds the myofibrils and, at the same time, participates to the assembly of the triadic junctional membrane complexes formed by the close apposition of one t-tubule, originated from the sarcolemma, and two SR terminal cisternae. Advancements in understanding the molecular basis of the SR structural organization have identified an interaction between sAnk1, a transmembrane protein located on the longitudinal SR (l-SR) tubules, and obscurin, a myofibrillar protein. The direct interaction between these two proteins results in molecular contacts that have the overall effect to stabilize the l-SR tubules along myofibrils in skeletal muscle fibers. Less known is the structural organization of the sites in the SR that are specialized for Ca release and are positioned at the junctional SR (j-SR), i.e. the region of the terminal cisternae that faces the t-tubule at triads. At the j-SR, several trans-membrane proteins like triadin, junctin, or intra-luminal SR proteins like calsequestrin, are assembled together with the ryanodine receptor, the SR Ca release channel, into a macromolecular complex specialized in releasing Ca. At triads, the 12 nm-wide gap between the t-tubule and the j-SR allows the ryanodine receptor on the j-SR to be functionally coupled with the voltage-gated L-type calcium channel on the t-tubule in order to allow the transduction of the voltage-induced signal into Ca release through the ryanodine receptor channels. The muscle-specific junctophilin isoforms (JPH1 and JPH2) are anchored to the j-SR with a trans-membrane segment present at the C-terminus and are capable to bind the sarcolemma with a series of phospholipid-binding motifs localized at the N-terminus. Accordingly, through this dual interaction, JPH1 and JPH2 are responsible for the assembly of the triadic junctional membrane complexes. Recent data indicate that junctophilins seem also to interact with other proteins of the excitation-contraction machinery, suggesting that they may contribute to hold excitation-contraction coupling proteins to the sites where the j-SR is being organized. [ABSTRACT FROM AUTHOR]

Published

2015

36. Human pericytes isolated from adipose tissue have better differentiation abilities than their mesenchymal stem cell counterparts.

Author

Pierantozzi, E., Badin, M., Vezzani, B., Curina, C., Randazzo, D., Petraglia, F., Rossi, D., and Sorrentino, Vincenzo

Subjects

PERICYTES, ADIPOSE tissues, MESENCHYMAL stem cells, MULTIPOTENT stem cells, MICROCIRCULATION disorders, PROGENITOR cells

Abstract

Multi-potent mesenchymal stem/progenitor cells are present in almost all organs and tissues, although their identity remains elusive. Several isolation strategies have been pursued to identify these cells prospectively, leading to the isolation of various cell populations endowed with multi-lineage mesodermal potential. Historically, mesenchymal stem cells (MSCs) were the first cell population to be isolated from the stromal fraction of most connective tissues. These cells are able to differentiate towards various mesodermal lineages and are currently the most studied adult mesodermal progenitors. Recently, the isolation of a subpopulation of microvascular pericytes (PCs) endowed with multi-lineage mesodermal potential has led to the identification of mesenchymal progenitors that reside in a defined anatomical location, namely the wall of small blood vessels. To gain insight into these two related cell populations, we performed a detailed analysis of the mesodermal potential of isogenic human MSCs and PCs isolated from white adipose tissue. Although both cell populations expressed known mesodermal markers at similar levels and displayed a comparable growth rate, PCs differentiated towards osteocytes, adipocytes and myocytes more efficiently than their MSC counterparts, as revealed by both histological and molecular assays. Our results show that microvascular PCs are more prone to mesenchymal differentiation than MSCs and therefore represent a preferable source of human adult mesenchymal progenitors when adipose tissue is used as a cell source. [ABSTRACT FROM AUTHOR]

Published

2015

37. Yip1B isoform is localized at ER-Golgi intermediate and cis-Golgi compartments and is not required for maintenance of the Golgi structure in skeletal muscle.

Author

Barone, Virginia, Mazzoli, Elisa, Kunic, Jelena, Rossi, Daniela, Tronnolone, Serena, and Sorrentino, Vincenzo

Subjects

ENDOPLASMIC reticulum, SKELETAL muscle, CELL compartmentation, GOLGI apparatus, LONGITUDINAL method

Abstract

The mechanism of endoplasmic reticulum (ER)-Golgi complex (GC) traffic is conserved from yeast to higher animals, but the architectures and the dynamics of vesicles' traffic between ER and GC vary across cell types and species. Skeletal muscle is a unique tissue in which ER and GC undergo a structural reorganization during differentiation that completely remodels the secretory pathway. In mature skeletal muscle, the ER is turned into sarcoplasmic reticulum, which is composed of junctional and longitudinal regions specialized, respectively, in calcium release and uptake during contraction. During skeletal muscle differentiation, GC acquires a particular fragmented organization as it appears as spots both at the nuclear poles and along the fibers. The ubiquitary-expressed Yip1A isoform has been proposed to be involved in anterograde trafficking from the ER exit sites to the cis-side of the GC and in ER and GC architecture organization. We investigated the role of Yip1 in skeletal muscle. Here we report that, following skeletal muscle development, the expression of the Yip1A decreases and is replaced by the muscle-specific Yip1B isoform. Confocal microscope analysis revealed that in adult skeletal muscle the Yip1B isoform is localized in the ER-Golgi intermediate and cis-Golgi compartments. Finally, skeletal muscle knockdown experiments in vitro and in vivo suggested that Yip1B is not involved in GC structure maintenance. [ABSTRACT FROM AUTHOR]

Published

2015

38. Discrete-Time Integral Sliding Mode Control with Disturbances Compensation and Reduced Chattering for Pv Grid-Connected Inverter.

Author

Meo, Santolo and Sorrentino, Vincenzo

Subjects

DISCRETE-time systems, SLIDING mode control, INTEGRALS, PHOTOVOLTAIC effect, ELECTRIC power distribution grids, MICROPROCESSORS

Abstract

In the paper a new discrete-time integral sliding mode control (DISMC) with disturbances compensation and reduced chattering for grid-connected inverter is proposed for active and reactive power regulation. Differently by many SMC proposed in literature that have a time-continuous formulation in spite have been implemented with digital processor, the proposed DISMC is fully formulated in discrete-time, taking into account the effects introduced by a microprocessor-based implementation. As will be demonstrated such approach consents to reduce the chattering about the sliding manifold within a boundary layer of O(T2) thickness instead of O(T) (being T the sampling period of the control algorithm). Moreover it introduces a correction of the control vector which eliminates the influence of modeling error and external disturbances improving stability and robustness of the controlled system. Constant converter switching frequency is achieved by using space vector modulation, which eases the design of the ac harmonic filter. In the paper, after a detailed formalization of the proposed control algorithm, several numerical and experimental results on a three-phase grid-connected inverter prototype are shown, proving the effectiveness of the control strategy. [ABSTRACT FROM AUTHOR]

Published

2015

39. Second-Order Sliding Mode Control of a Smart Inverter for Renewable Energy System.

Author

Meo, Santolo, Sorrentino, Vincenzo, Zohoori, Alireza, and Vahedi, Abolfazl

Subjects

SLIDING mode control, CONVERTERS (Electronics), SYNCHRONOUS generators, RENEWABLE energy sources, PERMANENT magnet generators

Abstract

In the paper the authors proposes a Second-Order Super-Twisting Integral Sliding Mode Control for a Grid-connected Double-Stage AC-DC/DC-AC Power Converter (DSACPC) of a renewable electrical energy system. The DSACPC consists of a Permanent Magnet Synchronous Generator (PMSG) directly connected to the renewable electric source, a generator-side controlled rectifier and a grid-side inverter. The proposed control strategy applied both to two stages is able to maximize the extracted energy from the renewable source, while to regulate the DC-link voltage and to achieve unity power factor and low distortion currents. The employed control strategy can regulate both the reactive and active power given to the utility grid independently and consents to the system to be enclosed in a smart-grid thanks to its performance. In fact the system giving the desired active power to the grid can be used also as a reactive power compensator in grid balanced conditions or as a system of current harmonic rejection in the case of unbalanced conditions of the grid. For the formulation of the control a sliding-Mode Observer is designed. Simulations and experimental results prove the high efficiency and high performance of the full proposed control system. [ABSTRACT FROM AUTHOR]

Published

2014

40. A Mutation in the CASQ1 Gene Causes a Vacuolar Myopathy with Accumulation of Sarcoplasmic Reticulum Protein Aggregates.

Author

Rossi, Daniela, Vezzani, Bianca, Galli, Lucia, Paolini, Cecilia, Toniolo, Luana, Pierantozzi, Enrico, Spinozzi, Simone, Barone, Virginia, Pegoraro, Elena, Bello, Luca, Cenacchi, Giovanna, Vattemi, Gaetano, Tomelleri, Giuliano, Ricci, Giulia, Siciliano, Gabriele, Protasi, Feliciano, Reggiani, Carlo, and Sorrentino, Vincenzo

Abstract

ABSTRACT A missense mutation in the calsequestrin-1 gene ( CASQ1) was found in a group of patients with a myopathy characterized by weakness, fatigue, and the presence of large vacuoles containing characteristic inclusions resulting from the aggregation of sarcoplasmic reticulum ( SR) proteins. The mutation affects a conserved aspartic acid in position 244 (p. Asp244 Gly) located in one of the high-affinity Ca2+-binding sites of CASQ1 and alters the kinetics of Ca2+ release in muscle fibers. Expression of the mutated CASQ1 protein in COS-7 cells showed a markedly reduced ability in forming elongated polymers, whereas both in cultured myotubes and in in vivo mouse fibers induced the formation of electron-dense SR vacuoles containing aggregates of the mutant CASQ1 protein that resemble those observed in muscle biopsies of patients. Altogether, these results support the view that a single missense mutation in the CASQ1 gene causes the formation of abnormal SR vacuoles containing aggregates of CASQ1, and other SR proteins, results in altered Ca2+ release in skeletal muscle fibers, and, hence, is responsible for the clinical phenotype observed in these patients. [ABSTRACT FROM AUTHOR]

Published

2014

41. Bcl-2 binds to and inhibits ryanodine receptors.

Author

Vervliet, Tim, Decrock, Elke, Molgó, Jordi, Sorrentino, Vincenzo, Missiaen, Ludwig, Leybaert, Luc, Smedt, Humbert De, Kasri, Nael Nadif, Parys, Jan B., and Bultynck, Geert

Subjects

B cell lymphoma, RYANODINE receptors, TUMOR proteins, ENDOPLASMIC reticulum, APOPTOSIS, HIPPOCAMPUS (Brain)

Abstract

The anti-apoptotic B-cell lymphoma-2 (Bcl-2) protein not only counteracts apoptosis at the mitochondria by scaffolding pro-apoptotic Bcl-2-family members, but also acts at the endoplasmic reticulum, thereby controlling intracellular Ca[sup 2+] dynamics. Bcl-2 inhibits Ca[sup 2+] release by targeting the inositol 1,4,5-trisphosphate receptor (IP[sub 3]R). Sequence analysis has revealed that the Bcl-2-binding site on the IP[sub 3]R displays strong similarity with a conserved sequence present in all three ryanodine receptor (RyR) isoforms. We now report that Bcl-2 co-immunoprecipitated with RyRs in ectopic expression systems and in native rat hippocampi, indicating that endogenous RyR-Bcl-2 complexes exist. Purified RyR domains containing the putative Bcl-2-binding site bound full-length Bcl-2 in pulldown experiments and interacted with the BH4 domain of Bcl-2 in surface plasmon resonance (SPR) experiments, suggesting a direct interaction. Exogenous expression of full-length Bcl-2 or electroporation loading of the BH4 domain of Bcl-2 dampened RyR-mediated Ca[sup 2+] release in HEK293 cell models. Finally, introducing the BH4-domain peptide into hippocampal neurons through a patch pipette decreased RyR-mediated Ca[sup 2+] release. In conclusion, this study identifies Bcl-2 as a new inhibitor of RyR-based intracellular Ca[sup 2+]-release channels. [ABSTRACT FROM AUTHOR]

Published

2014

42. Distinct regions of triadin are required for targeting and retention at the junctional domain of the sarcoplasmic reticulum.

Author

ROSSI, Daniela, BENCINI, Cristina, MARITATI, Marina, BENINI, Francesca, LORENZINI, Stefania, PIERANTOZZI, Enrico, SCARCELLA, Angela Maria, PAOLINI, Cecilia, PROTASI, Feliciano, and SORRENTINO, Vincenzo

Subjects

SARCOPLASMIC reticulum, RYANODINE receptors, PROTEINS, CALSEQUESTRIN, MOLECULAR interactions

Abstract

Ca2+ release, which is necessary for muscle contraction, occurs at the j-SR (junctional domain of the sarcoplasmic reticulum). It requires the assembly of a large multiprotein complex containing the RyR (ryanodine receptor) and additional proteins, including triadin and calsequestrin. The signals which drive these proteins to the j-SR and howthey assemble to form this multiprotein complex are poorly understood. To address aspects of these questions we studied the localization, dynamic properties and molecular interactions of triadin. We identified three regions, named TR1 (targeting region 1), TR2 and TR3, that contribute to the localization of triadin at the j-SR. FRAP experiments showed that triadin is stably associated with the j-SR and that this association is mediated by TR3. Protein pull-down experiments indicated that TR3 contains binding sites for calsequestrin-1 and that triadin clustering can be enhanced by binding to calsequestrin-1. These findings were confirmed by FRET experiments. Interestingly, the stable association of triadin to the j-SRwas significantly decreased in myotubes from calsequestrin-1 knockout mice. Taken together, these results identify three regions in triadin thatmediate targeting to the j-SR and reveal a role for calsequestrin-1 in promoting the stable association of triadin to the multiprotein complex associated with RyR. [ABSTRACT FROM AUTHOR]

Published

2014

43. Functional and genetic characterization of clinical malignant hyperthermia crises: a multi-centre study.

Author

Klingler, Werner, Heiderich, Sebastian, Girard, Thierry, Gravino, Elvira, Heffron, James J. A., Johannsen, Stephan, Jurkat-Rott, Karin, Rüffert, Henrik, Schuster, Frank, Snoeck, Marc, Sorrentino, Vincenzo, Tegazzin, Vincenzo, and Lehmann-Horn, Frank

Subjects

MALIGNANT hyperthermia, ANESTHESIA complications, ADMINISTRATION of anesthetics, HUMAN chromosome abnormality diagnosis, CENTRAL nervous system depressants, SUCCINYLCHOLINE

Abstract

Background Malignant hyperthermia (MH) is a rare pharmacogenetic disorder which is characterized by life-threatening metabolic crises during general anesthesia. Classical triggering substances are volatile anesthetics and succinylcholine (SCh). The molecular basis of MH is excessive release of Ca2+ in skeletal muscle principally by a mutated ryanodine receptor type 1 (RyR1). To identify factors explaining the variable phenotypic presentation and complex pathomechanism, we analyzed proven MH events in terms of clinical course, muscle contracture, genetic factors and pharmocological triggers. Methods In a multi-centre study including seven European MH units, patients with a history of a clinical MH episode confirmed by susceptible (MHS) or equivocal (MHE) in vitro contracture tests (IVCT) were investigated. A test result is considered to be MHE if the muscle specimens develop pathological contractures in response to only one of the two test substances, halothane or caffeine. Crises were evaluated using a clinical grading scale (CGS), results of IVCT and genetic screening. The effects of SCh and volatile anesthetics on Ca2+ release from sarcoplasmic reticulum (SR) were studied in vitro. Results A total of 200 patients met the inclusion criteria. Two MH crises (1%) were triggered by SCh (1 MHS, 1 MHE), 18% by volatile anesthetics and 81% by a combination of both. Patients were 70% male and 50% were younger than 12 years old. Overall, CGS was in accord with IVCT results. Crises triggered by enflurane had a significantly higher CGS compared to halothane, isoflurane and sevoflurane. Of the 200 patients, 103 carried RyR1 variants, of which 14 were novel. CGS varied depending on the location of the mutation within the RyR1 gene. In contrast to volatile anesthetics, SCh did not evoke Ca2+ release from isolated rat SR vesicles. Conclusions An MH event could depend on patient-related risk factors such as male gender, young age and causative RyR1 mutations as well as on the use of drugs lowering the threshold of myoplasmic Ca2+ release. SCh might act as an accelerant by promoting unspecific Ca2+ influx via the sarcolemma and indirect RyR1 activation. Most MH crises develop in response to the combined administration of SCh and volatile anesthetics. [ABSTRACT FROM AUTHOR]

Published

2014

44. Impaired Intracellular Ca 2+ Dynamics, M-Band and Sarcomere Fragility in Skeletal Muscles of Obscurin KO Mice.

Author

Pierantozzi, Enrico, Szentesi, Péter, Paolini, Cecilia, Dienes, Beatrix, Fodor, János, Oláh, Tamás, Colombini, Barbara, Rassier, Dilson E., Rubino, Egidio Maria, Lange, Stephan, Rossi, Daniela, Csernoch, László, Bagni, Maria Angela, Reggiani, Carlo, and Sorrentino, Vincenzo

Subjects

SKELETAL muscle, SARCOPLASMIC reticulum, EXERCISE tolerance, STRIATED muscle, MICE, RESPIRATORY muscles

Abstract

Obscurin is a giant sarcomeric protein expressed in striated muscles known to establish several interactions with other proteins of the sarcomere, but also with proteins of the sarcoplasmic reticulum and costameres. Here, we report experiments aiming to better understand the contribution of obscurin to skeletal muscle fibers, starting with a detailed characterization of the diaphragm muscle function, which we previously reported to be the most affected muscle in obscurin (Obscn) KO mice. Twitch and tetanus tension were not significantly different in the diaphragm of WT and Obscn KO mice, while the time to peak (TTP) and half relaxation time (HRT) were prolonged. Differences in force-frequency and force-velocity relationships and an enhanced fatigability are observed in an Obscn KO diaphragm with respect to WT controls. Voltage clamp experiments show that a sarcoplasmic reticulum's Ca2+ release and SERCA reuptake rates were decreased in muscle fibers from Obscn KO mice, suggesting that an impairment in intracellular Ca2+ dynamics could explain the observed differences in the TTP and HRT in the diaphragm. In partial contrast with previous observations, Obscn KO mice show a normal exercise tolerance, but fiber damage, the altered sarcomere ultrastructure and M-band disarray are still observed after intense exercise. [ABSTRACT FROM AUTHOR]

Published

2022

45. Identification of a loss-of-function inducible degrader of the low-density lipoprotein receptor variant in individuals with low circulating low-density lipoprotein.

Author

Sorrentino, Vincenzo, Fouchier, Sigrid W., Motazacker, Mohammad M., Nelson, Jessica K., Defesche, Joep C., Dallinga-Thie, Geesje M., Kastelein, John J.P., Kees Hovingh, G., and Zelcer, Noam

Abstract

Aims Recent genome-wide association studies suggest that IDOL (also known as MYLIP) contributes to variation in circulating levels of low-density lipoprotein cholesterol (LDL-C). IDOL, an E3-ubiquitin ligase, is a recently identified post-transcriptional regulator of LDLR abundance. Briefly, IDOL promotes degradation of the LDLR thereby limiting LDL uptake. Yet the exact role of IDOL in human lipoprotein metabolism is unclear. Therefore, this study aimed at identifying and functionally characterizing IDOL variants in the Dutch population and to assess their contribution to circulating levels of LDL-C. Methods and results We sequenced the IDOL coding region in 677 individuals with LDL-C above the 95th percentile adjusted for age and gender (high-LDL-C cohort) in which no mutations in the LDLR, APOB, and PCSK9 could be identified. In addition, IDOL was sequenced in 560 individuals with baseline LDL-C levels below the 20th percentile adjusted for age and gender (low-LDL-C cohort). We identified a total of 14 IDOL variants (5 synonymous, 8 non-synonymous, and 1 non-sense). Functional characterization of these variants demonstrated that the p.Arg266X variant represents a complete loss of IDOL function unable to promote ubiquitylation and subsequent degradation of the LDLR. Consistent with loss of IDOL function, this variant was identified in individuals with low circulating LDL-C. Conclusion Our results support the notion that IDOL contributes to variation in circulating levels of LDL-C. Strategies to inhibit IDOL activity may therefore provide a novel therapeutic venue to treating dyslipidaemia. [ABSTRACT FROM PUBLISHER]

Published

2013

46. Role of triadin in the organization of reticulum membrane at the muscle triad.

Author

Fourest-Lieuvin, Anne, Rendu, John, Osseni, Alexis, Pernet-Gallay, Karine, Rossi, Daniella, Oddoux, Sarah, Brocard, Julie, Sorrentino, Vincenzo, Marty, Isabelle, and Fauré, Julien

Subjects

SKELETAL muscle, SARCOPLASMIC reticulum, REGULATION of muscle contraction, MEMBRANE proteins, ABLATION techniques

Abstract

The terminal cisternae represent one of the functional domains of the skeletal muscle sarcoplasmic reticulum (SR). They are closely apposed to plasma membrane invaginations, the T-tubules, with which they form structures called triads. In triads, the physical interaction between the T-tubule-anchored voltage-sensing channel DHPR and the SR calcium channel RyR1 is essential because it allows the depolarization-induced calcium release that triggers muscle contraction. This interaction between DHPR and RyR1 is based on the peculiar membrane structures of both T-tubules and SR terminal cisternae. However, little is known about the molecular mechanisms governing the formation of SR terminal cisternae. We have previously shown that ablation of triadins, a family of SR transmembrane proteins that interact with RyR1, induced skeletal muscle weakness in knockout mice as well as a modification of the shape of triads. Here we explore the intrinsic molecular properties of the longest triadin isoform Trisk 95. We show that when ectopically expressed, Trisk 95 can modulate reticulum membrane morphology. The membrane deformations induced by Trisk 95 are accompanied by modifications of the microtubule network organization. We show that multimerization of Trisk 95 by disulfide bridges, together with interaction with microtubules, are responsible for the ability of Trisk 95 to structure reticulum membrane. When domains responsible for these molecular properties are deleted, anchoring of Trisk 95 to the triads in muscle cells is strongly decreased, suggesting that oligomers of Trisk 95 and microtubules contribute to the organization of the SR terminal cisternae in a triad. [ABSTRACT FROM AUTHOR]

Published

2012

47. FGD1 as a central regulator of extracellular matrix remodelling - lessons from faciogenital dysplasia.

Author

Genot, Elisabeth, Daubon, Thomas, Sorrentino, Vincenzo, and Buccione, Roberto

Subjects

EXTRACELLULAR matrix, DYSPLASIA, X-linked genetic disorders, ENDOTHELIAL cells, BIOLOGICAL invasions, NEOPLASTIC cell transformation

Abstract

Disabling mutations in the FGD1 gene cause faciogenital dysplasia (also known as Aarskog-Scott syndrome), a human X-linked developmental disorder that results in disproportionately short stature, facial, skeletal and urogenital anomalies, and in a number of cases, mild mental retardation. FGD1 encodes the guanine nucleotide exchange factor FGD1, which is specific for the Rho GTPase cell division cycle 42 (CDC42). CDC42 controls cytoskeleton-dependent membrane rearrangements, transcriptional activation, secretory membrane trafficking, G1 transition during the cell cycle and tumorigenic transformation. The cellular mechanisms by which FGD1 mutations lead to the hallmark skeletal deformations of faciogenital dysplasia remain unclear, but the pathology of the disease, as well as some recent discoveries, clearly show that the protein is involved in the regulation of bone development. Two recent studies unveiled new potential functions of FGD1, in particular, its involvement in the regulation of the formation and function of invadopodia and podosomes, which are cellular structures devoted to degradation of the extracellular matrix in tumour and endothelial cells. Here, we discuss the hypothesis that FGD1 might be an important regulator of events controlling extracellular matrix remodelling and possibly cell invasion in physiological and pathological settings. Additionally, we focus on how studying the cell biology of FGD1 might help us to connect the dots that link CDC42 signalling with remodelling of the extracellular matrix (ECM) in physiology and complex diseases, while, at the same time, furthering our understanding of the pathogenesis of faciogenital dysplasia. [ABSTRACT FROM AUTHOR]

Published

2012

48. Post-transcriptional regulation of lipoprotein receptors by the E3-ubiquitin ligase inducible degrader of the low-density lipoprotein receptor.

Author

Sorrentino, Vincenzo and Zelcer, Noam

Published

2012

49. A frameshift mutation in LRSAM1 is responsible for a dominant hereditary polyneuropathy.

Author

Weterman, Marian A.J., Sorrentino, Vincenzo, Kasher, Paul R., Jakobs, Marja E., van Engelen, Baziel G.M., Fluiter, Kees, de Wissel, Marit B., Sizarov, Aleksander, Nürnberg, Gudrun, Nürnberg, Peter, Zelcer, Noam, Schelhaas, H. Jurgen, and Baas, Frank

Published

2012

50. Identification of cancer stem cells from human glioblastomas: growth and differentiation capabilities and CD133/prominin-1 expression.

Author

Gambelli, Federica, Sasdelli, Federica, Manini, Ivana, Gambarana, Carla, Oliveri, Giuseppe, Miracco, Clelia, and Sorrentino, Vincenzo

Subjects

CANCER stem cells, GLIOBLASTOMA multiforme, CELL differentiation, CD antigens, PROMININ, GENE expression

Abstract

CD133 can be a marker of tumorigenic CSCs (cancer stem cells) in human GBM (glioblastoma multiforme), although tumorigenic CD133-negative CSCs have been also isolated. Additional evidence indicates that CSCs from GBM exhibit different phenotypes, with increasing interest in the potential significance of the different CSCs with respect to diagnosis, prognosis and the development of novel targets for treatment. We have analysed the expression of CD133 in freshly isolated cells from 15 human GBM specimens. Only 4 of them contained cells positive for AC133 by FACS analysis, and all of them yielded distinct CSC lines, whereas only 6 CSC lines were obtained from the other 11 GBMs. Of these 10 CSCs lines, we further characterized 6 CSC lines. Three CSCs grew as fast-growing neurospheres with higher clonogenic ability, whereas the remaining 3 grew as slow-growing semi-adherent spheres of lower clonogenicity. In addition, the former CSC lines displayed better differentiation capabilities than the latter ones. PCR and Western blot analysis showed that all 6 GBM CSC lines expressed CD133/prominin-1, suggesting that cells negative by FACS analysis may actually represent cells expressing low levels of CD133 undetected by FACS. Nevertheless, all the 6 CSC lines were tumorigenic in nude mice. In conclusion, CSCs from human primary GBMs show different phenotypes and variable levels of CD133 expression, but these parameters did not directly correlate with the tumorigenic potential. [ABSTRACT FROM AUTHOR]

Published

2012