Satellite cell senescence underlies myopathy in a mouse model of limb-girdle muscular dystrophy 2H
Elena Kudryashova, … , Irina Kramerova, Melissa J. Spencer
Elena Kudryashova, … , Irina Kramerova, Melissa J. Spencer
Published April 16, 2012
Citation Information: J Clin Invest. 2012;122(5):1764-1776. https://doi.org/10.1172/JCI59581.
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Satellite cell senescence underlies myopathy in a mouse model of limb-girdle muscular dystrophy 2H

Abstract

Mutations in the E3 ubiquitin ligase tripartite motif-containing 32 (TRIM32) are responsible for the disease limb-girdle muscular dystrophy 2H (LGMD2H). Previously, we generated Trim32 knockout mice (Trim32–/– mice) and showed that they display a myopathic phenotype accompanied by neurogenic features. Here, we used these mice to investigate the muscle-specific defects arising from the absence of TRIM32, which underlie the myopathic phenotype. Using 2 models of induced atrophy, we showed that TRIM32 is dispensable for muscle atrophy. Conversely, TRIM32 was necessary for muscle regrowth after atrophy. Furthermore, TRIM32-deficient primary myoblasts underwent premature senescence and impaired myogenesis due to accumulation of PIAS4, an E3 SUMO ligase and TRIM32 substrate that was previously shown to be associated with senescence. Premature senescence of myoblasts was also observed in vivo in an atrophy/regrowth model. Trim32–/– muscles had substantially fewer activated satellite cells, increased PIAS4 levels, and growth failure compared with wild-type muscles. Moreover, Trim32–/– muscles exhibited features of premature sarcopenia, such as selective type II fast fiber atrophy. These results imply that premature senescence of muscle satellite cells is an underlying pathogenic feature of LGMD2H and reveal what we believe to be a new mechanism of muscular dystrophy associated with reductions in available satellite cells and premature sarcopenia.

Authors

Elena Kudryashova, Irina Kramerova, Melissa J. Spencer

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Figure 7

Premature senescence in Trim32–/– myoblasts.

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Premature senescence in Trim32–/– myoblasts. (A) Micrographs of Trim...
(A) Micrographs of Trim32+/+ and Trim32–/– primary myoblast cultures stained for SA-β-gal activity (blue staining). Scale bar: 20 μm. (B) SA-β-gal–positive cells were counted in 20 independent fields of view. Data are represented as percentage of total cell number and shown as mean ± SEM (*P < 0.05). (C) Western blot analysis demonstrates expression of PIAS4 (2 blots are shown), HP1γ, and p53 in myogenic cells in growth medium and at different indicated times after switching to differentiation medium. The desmin blot is shown as a loading control. The numbers under the blots are densitometry data normalized to loading and represent a fold difference of the indicated protein expression in Trim32–/– cells relative to the value in the corresponding Trim32+/+ culture. (D) Real-time PCR analysis of Pias4 mRNA expression using RNA harvested from Trim32+/+ and Trim32–/– myoblasts in growth medium. Data are shown as mean ± SEM. A representative agarose gel of Gapdh and Pias4 PCR using qPCR primers is shown.