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THE ROLE OF STEM CELL ANTIGEN-1(Sca-1) IN MUSCLE AGINGRichards-Malcolm, Sonia Angela 01 January 2008 (has links)
Muscle aging is associated with a decrease in the number of satellite cells and their progeny, muscle progenitor cells (MPCs) that are available for muscle repair and regeneration. However, there is an increase in non-immuno-hematopoietic cells (CD45 negative) in regenerating muscle from aged mice characterized by high stem cell antigen -1(Sca-1) expression. In aged regenerating muscle, 14.2% of cells are CD45neg Sca-1pos while 7.2% of cells are CD45neg Sca-1pos in young adult muscle. In vitro, CD45neg Sca-1pos cells over express genes associated with fibrosis, potentially controlled by Wnt2. These cells are proliferative, non-myogenic and non-adipogenic, and arise in clonally-derived MPCs cultures from aged mice. Both in vitro and in vivo studies suggest that CD45neg Sca-1pos cells from aged muscle are more susceptible to apoptosis than their MPCs, which may contribute to depletion of the satellite cell pool. Therefore, with age, a subset of MPCs takes on an altered phenotype, which is marked by high Sca-1 expression. This altered phenotype prevents these cells from participating in muscle regeneration or replenishing the satellite cell pool, and instead may contribute to fibrosis in aged muscle.
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BMP signaling controls postnatal muscle development / La signalisation BMP contrôle le développement musculaire postnatalStantzou, Amalia 29 September 2015 (has links)
Les "Bone Morphogenetic Proteins" (BMPs) jouent un rôle clef dans la régulation de cellules précurseurs du muscle prénatal et de cellules souches musculaires adultes dénommées "cellules satellites". Les objectifs principaux de ma thèse étaient d'une part de déterminer si la signalisation BMP joue un rôle pendant la phase de croissance du muscle postnatale/juvénile dépendante des cellules satellites, et d'autre part d'investiguer si cette voie est impliquée dans la maintenance de la masse musculaire squelettique adulte. J'ai trouvé que les composants de cette voie de signalisation sont exprimés dans les cellules satellites de souris néonatales, juvéniles et adultes. Par ailleurs, j'ai utilisé des lignées de souris transgéniques pour surexprimer, de manière conditionnelle, l'inhibiteur Smad6 de la cascade de signalisation BMP dans les cellules satellites ou dans le muscle squelettique. J'ai pu ainsi démontrer que cette signalisation est requise pour une prolifération correcte des cellules satellites et pour leur différentiation en myonuclei, assurant que les fibres musculaires en croissance atteignent une taille finale normale. Par ailleurs, mes travaux révèlent que le nombre final de cellules satellites est établis pendant la phase de croissance postnatale/juvénile et que celle-ci dépend de la cascade de signalisation BMP. Enfin, je fournis des preuves montrant que la signalisation BMP est un puissant signal hypertrophique dans le muscle squelettique adulte et que sa présence est indispensable pour le maintien du tissu musculaire. En résumé, mes résultats de recherche démontrent que les BMPs sont des facteurs de croissance essentiels pour le muscle squelettique postnatal. / Bone Morphogenetic Proteins (BMPs), a subfamily of TGF-β growth factors, have been shown to be key signals that regulate embryonic and fetal muscle precursors during prenatal myogenesis, as well as the stem cells of adult muscle, termed ‘satellite cells’, when activated during muscle regeneration. The main aims of my thesis were to elucidate whether BMP signaling plays a role during postnatal/juvenile satellite cell-dependent muscle growth as well as for maintenance of adult muscle mass. I found that components of BMP signaling pathway are expressed in muscle satellite cells of neonatal, juvenile and adult mice. I used transgenic mouse lines to conditionally overexpress the BMP signaling cascade inhibitor Smad6 in muscle satellite cells and in differentiated skeletal muscle. I show that BMP signaling is required for correct proliferation of muscle satellite cells and their differentiation into myonuclei, thereby ensuring that the growing muscle fibers reach the correct final size. Moreover, I demonstrated that the final number of muscle stem cells is established during the postnatal/juvenile growth phase and this also depends on the BMP signaling cascade. Finally, I provide evidence that BMP signaling is a strong hypertrophic signal for the adult skeletal muscle and its presence is indispensable for muscle tissue maintenance. In summary, my findings demonstrate that BMPs are essential growth factors for postnatal skeletal muscle.
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