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231 results on '"Donato, Rosario Francesco"'

3. Cellular and molecular mechanisms of sarcopenia: the S100B perspective

Author

Riuzzi, Francesca, Sorci, Guglielmo, Arcuri, Cataldo, Giambanco, Ileana, Bellezza, Ilaria, Minelli, Alba, and Donato, Rosario Francesco

Subjects
Sarcopenia, Myoblast, lcsh:Diseases of the musculoskeletal system, Satellite Cells, Skeletal Muscle, Myofiber, Muscle Fibers, Skeletal, Reviews, S100 Calcium Binding Protein beta Subunit, Review, lcsh:Human anatomy, musculoskeletal system, S100B, Brown adipocyte, lcsh:QM1-695, Oxidative stress, Humans, lcsh:RC925-935, Muscle, Skeletal, Biomarkers
Abstract

Primary sarcopenia is a condition of reduced skeletal muscle mass and strength, reduced agility, and increased fatigability and risk of bone fractures characteristic of aged, otherwise healthy people. The pathogenesis of primary sarcopenia is not completely understood. Herein, we review the essentials of the cellular and molecular mechanisms of skeletal mass maintenance; the alterations of myofiber metabolism and deranged properties of muscle satellite cells (the adult stem cells of skeletal muscles) that underpin the pathophysiology of primary sarcopenia; the role of the Ca2+‐sensor protein, S100B, as an intracellular factor and an extracellular signal regulating cell functions; and the functional role of S100B in muscle tissue. Lastly, building on recent results pointing to S100B as to a molecular determinant of myoblast–brown adipocyte transition, we propose S100B as a transducer of the deleterious effects of accumulation of reactive oxygen species in myoblasts and, potentially, myofibers concurring to the pathophysiology of sarcopenia.

Published
2018

4. Welcome to the New Open Access NeuroSci

Author

Parnetti, Lucilla, primary, Reay, Jonathon, additional, Martella, Giuseppina, additional, Donato, Rosario Francesco, additional, Memo, Maurizio, additional, Morona, Ruth, additional, Schubert, Frank, additional, and Adan, Ana, additional

Published
2020
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6. S100A6

Author

Donato, Rosario Francesco, Sorci, Guglielmo, and Giambanco, Ileana

Subjects
S100A6, Cell Proliferation, Cancer, Cytoskeleton, Stem Cells, Neurodegenerative Diseases, Serum Markers
Published
2018

7. Absence of RAGE in an animal experimental model of Duchenne muscular dystrophy results in reduced muscle necrosis and inflammation

Author

Sagheddu, Roberta, Chiappalupi, Sara, Salvadori, Laura, Riuzzi, Francesca, Sorci, Guglielmo, and Donato, Rosario Francesco

Subjects
musculoskeletal diseases, congenital, hereditary, and neonatal diseases and abnormalities, Duchenne muscular dystrophy, muscle inflammation, RAGE, mdx mice, Ager–/– mice, musculoskeletal system
Abstract

Duchenne muscular dystrophy (DMD) is a lethal X-linked neuromuscular disorder characterized by progressive muscle degeneration due to lack of dystrophin, a protein essential for the integrity of sarcolemma during contraction. Chronic inflammation is a hallmark of muscles in DMD subjects, and contributes to progressive muscle wasting. RAGE (receptor for advanced glycation end-products) is a multiligand receptor of the immunoglobulin superfamily involved in physiological and pathological processes including inflammation and myogenesis [1]. While absent in healthy adult muscle tissue, RAGE is expressed in regenerating myofibers during muscle regeneration [2,3], in dystrophic muscles and activated immune cells. To have information about the role of RAGE in the pathophysiology of DMD we generated a double mutant mouse lacking dystrophin and RAGE (mdx/Ager–/– mouse) by cross-breeding dystrophic (mdx) mice with RAGE-null (Ager-/-) mice. Comparison of Quadriceps femoris of mdx and mdx/Ager–/– mice at different ages (i.e., 2, 3, 4 and 5 weeks, and 6 and 12 months of age) showed that the absence of RAGE in dystrophic mice did not affect the onset of the pathology. However, compared with age-matched mdx mice, muscles of 5 week- and 6 and 12 month-old mdx/Ager–/– mice showed i) significantly reduced numbers of necrotic myofibers, ii) a shift towards higher values of the cross-sectional areas (CSA) of myofibers, which was also evident in regenerating (centrally-nucleated) myofibers, and iii) reduced areas of immune cell infiltrate. The expression of MAC3, a marker of activated macrophages, was strongly reduced in muscles of mdx/Ager–/– mice compared with mdx mice. Moreover, muscles of mdx/Ager–/– mice exhibited significantly reduced PAX7+ve and myogenin+ve cell numbers, suggesting a reduced recruitment of muscle precursor cells and more efficient regeneration in dystrophic mice lacking RAGE. Our results suggest that RAGE may sustain inflammatory and degenerative processes in dystrophic muscles, and the inhibition of its expression/activity might represent a potential therapeutic approach in DMD patients.This work was supported by grants from MIUR 2012N8YJC3, AFM-Téléthon 16812 and Fondazione CRP 2015.0325.021., Italian Journal of Anatomy and Embryology, Vol. 121, No. 1 (Supplement) 2016

Published
2017
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8. The receptor RAGE: a potential molecular target in cancer cachexia

Author

Chiappalupi, Sara, Riuzzi, Francesca, UTRIO LANFALONI, Sabrina, Salvadori, Laura, Sagheddu, Roberta, Donato, Rosario Francesco, and Sorci, Guglielmo

Subjects
muscle atrophy, receptor, RAGE, cancer cachexia, receptor, molecular target, muscle atrophy, RAGE, cancer cachexia, molecular target
Published
2017

9. Le proteine S100

Author

Donato, Rosario Francesco, Sorci, Guglielmo, and Giambanco, Ileana

Subjects
Segnalazione intracellulare, Proliferazione cellulare, Metastasi, Cancro, Metastasis, Calcio, Neurodegenerazione, Citoscheletro, Infiammazione, TLR, Cell differentiation, Riparazione tissutale, Recettori, Proteine S100, Neurodegeneration, Tissue repair, Differenziamento cellulare, RAGE, Marcatore di malattia. S100 proteins, Calcium, Cell proliferation, Cytoskeleton, Cancer, Infiammation, RAGE, TLR, Receptor, Intracellular signaling, Disease biomarker
Published
2017

10. The novel DMD experimental model, mdx/Ager–/– mouse reveals a role of RAGE in inflammatory processes in dystrophic muscles

Author

Sagheddu R, 1. 1. 7., Salvadori, Laura, Chiappalupi, Sara, Riuzzi, Francesca, Sorcini, Daniele, Riccardi, Carlo, Donato, Rosario Francesco, and Sorci, Guglielmo

Subjects
Duchenne muscular dystrophy, Ager, inflammation, DMD experimental model, DMD experimental model, mdx, Ager-/-, mdx/Ager-/-, RAGE, inflammation, Duchenne muscular dystrophy, mdx/Ager, mdx, RAGE
Published
2017

12. Mdx/Ager–/– mice show reduced muscle necrosis and inflammation compared with mdx mice

Author

Salvadori, Laura, Sagheddu, Roberta, Chiappalupi, Sara, Donato, Rosario Francesco, and Sorci, Guglielmo

Subjects
Duchenne muscular dystrophy, muscle necrosis, DMD, mdx mice, Mdx/Ager–/– mice, mdx mice, Ager, RAGE, muscle necrosis, muscle inflammation, Duchenne muscular dystrophy, DMD, Ager, Mdx/Ager–/– mice, RAGE, muscle inflammation
Published
2016

15. Transplantation of microencapsulated Sertoli cells in a mouse model of Duchenne muscular dystrophy (DMD) reduces inflammation and rescues muscle performance

Author

Chiappalupi, Sara, Sorci, Guglielmo, Luca, Giovanni, Mancuso, Francesca, Calvitti, Mario, Madaro, L., Nicoletti, C., Arato, Iva, Falabella, G., Calafiore, Riccardo, and Donato, Rosario Francesco

Subjects
Duchenne muscular dystrophy, Sertoli cells, transplantation, inflammation
Abstract

Duchenne muscular dystrophy (DMD), a progressive muscle degenerative disease associated with chronic inflammation, necrosis and fibrosis, is currently treated with antiinflammatory steroids, despite their limited efficacy and undesired side effects. Testicular Sertoli cells (SCs) have been successfully implanted to treat many experimental diseases due to their ability to secrete trophic, antiinflammatory and immunomodulatory molecules (Mital et al., 2010). We transplanted microencapsulated SCs, within highly biocompatible microcapsules (Luca et al., 2007) into the peritoneal cavity of mdx mice, an animal model of DMD. Three weeks after transplantation, skeletal muscles from SC-treated mice, compared with muscles from mock-treated mice, showed: i) dramatically reduced number of infiltrated cells, including (MAC3+) macrophages; ii) a marked decrease in necrotic myofibers, and an increased number of regenerated (normally sized and centrally nucleated) myofibers; and, iii) a significant decrease in fibrous tissue infiltration. Moreover, SC-treated, but not mock-treated mdx mice showed recovery of muscle performance in treadmill endurance tests and a comparable resistance to exercise-induced muscle damage to that of untreated wildtype mice. These preliminary results suggest that our transplant product creates a suitable microenvironment for muscle regeneration and growth potentially applicable to DMD patients., Italian Journal of Anatomy and Embryology, Vol 117, No 2 (Supplement) 2012

Published
2013
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18. Intraperitoneal transplantation of microencapsulated Sertoli cells counteracts muscle inflammation and rescues muscle performance in mdx mice

Author

Chiappalupi, Sara, Sorci, Guglielmo, Luca, Giovanni, Fallarino, Francesca, Mancuso, Francesca, Madaro, L., Nicoletti, C., Calvitti, Mario, Arato, Iva, Falabella, G., Calafiore, Riccardo, and Donato, Rosario Francesco

Subjects
Duchenne muscular dystrophy (DMD), transplantation, Sertoli cells, mdx mouse, muscle inflammation, muscle performance
Published
2012

22. Spatiotemporal regulation of Toll-like receptors and RAGE signaling pathways by S100B protein restrains inflammation

Author

Sorci, Guglielmo, Giovannini, Gloria, Riuzzi, Francesca, Bonifazi, Pierluigi, Zelante, Teresa, Zagarella, S., Bistoni, Francesco, Donato, Rosario Francesco, and Romani, Luigina

Subjects
S100B, RAGE, TLR, PAMP, DAMP, aspergillosis, lung, infection, TLRs
Abstract

Italian Journal of Anatomy and Embryology, Vol 115, No 1/2 (Supplement) 2010

Published
2010
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