Deletion of murine Smn exon 7, the most frequent mutation found in spinal muscular atrophy, has been directed to either both satellite cells, the muscle progenitor cells and fused myotubes, or fused myotubes only. When satellite cells were mutated, mutant mice develop severe myopathic process, progressive motor paralysis, and early death at 1 mo of age (severe mutant). Impaired muscle regeneration of severe mutants correlated with defect of myogenic precursor cells both in vitro and in vivo. In contrast, when satellite cells remained intact, mutant mice develop similar myopathic process but exhibit mild phenotype with median survival of 8 mo and motor performance similar to that of controls (mild mutant). High proportion of regenerating myofibers expressing SMN was observed in mild mutants compensating for progressive loss of mature myofibers within the first 6 mo of age. Then, in spite of normal contractile properties of myofibers, mild mutants develop reduction of muscle force and mass. Progressive decline of muscle regeneration process was no more able to counterbalance muscle degeneration leading to dramatic loss of myofibers. These data indicate that intact satellite cells remarkably improve the survival and motor performance of mutant mice suffering from chronic myopathy, and suggest a limited potential of satellite cells to regenerate skeletal muscle.
Intact satellite cells lead to remarkable protection against Smn gene defect in differentiated skeletal muscle
The online version of this article includes supplemental material.
S. Nicole's present address is INSERM, U-546, Faculté de Médecine Pitié-Salpétriêre, 75013 Paris, France.
Abbreviations used in this paper: CMAP, compound muscle action potential; EDL, extensor digitorum longus, FDB, flexor digitorum brevis; HSA, human α-skeletal actin; SMA, spinal muscular atrophy; SMN, survival of motor neuron gene.
Sophie Nicole, Benedicte Desforges, Gaelle Millet, Jeanne Lesbordes, Carmen Cifuentes-Diaz, Dora Vertes, My Linh Cao, Fabienne De Backer, Laetitia Languille, Natacha Roblot, Vandana Joshi, Jean-Marie Gillis, Judith Melki; Intact satellite cells lead to remarkable protection against Smn gene defect in differentiated skeletal muscle . J Cell Biol 12 May 2003; 161 (3): 571–582. doi: https://doi.org/10.1083/jcb.200210117
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