Compromised genomic integrity impedes muscle growth after Atrx inactivation
Michael S. Huh, … , Michael A. Rudnicki, David J. Picketts
Michael S. Huh, … , Michael A. Rudnicki, David J. Picketts
Published November 1, 2012
Citation Information: J Clin Invest. 2012;122(12):4412-4423. https://doi.org/10.1172/JCI63765.
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Research Article Muscle biology

Compromised genomic integrity impedes muscle growth after Atrx inactivation

Abstract

ATR-X syndrome is a severe intellectual disability disorder caused by mutations in the ATRX gene. Many ancillary clinical features are attributed to CNS deficiencies, yet most patients have muscle hypotonia, delayed ambulation, or kyphosis, pointing to an underlying skeletal muscle defect. Here, we identified a cell-intrinsic requirement for Atrx in postnatal muscle growth and regeneration in mice. Mice with skeletal muscle–specific Atrx conditional knockout (Atrx cKO mice) were viable, but by 3 weeks of age presented hallmarks of underdeveloped musculature, including kyphosis, 20% reduction in body mass, and 34% reduction in muscle fiber caliber. Atrx cKO mice also demonstrated a marked regeneration deficit that was not due to fewer resident satellite cells or their inability to terminally differentiate. However, activation of Atrx-null satellite cells from isolated muscle fibers resulted in a 9-fold reduction in myoblast expansion, caused by delayed progression through mid to late S phase. While in S phase, Atrx colocalized specifically to late-replicating chromatin, and its loss resulted in rampant signs of genomic instability. These observations support a model in which Atrx maintains chromatin integrity during the rapid developmental growth of a tissue.

Authors

Michael S. Huh, Tina Price O’Dea, Dahmane Ouazia, Bruce C. McKay, Gianni Parise, Robin J. Parks, Michael A. Rudnicki, David J. Picketts

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Figure 7

Atrx depletion activates the p53-ATM DDR pathway and concomitant reduction in Rad51.

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Atrx depletion activates the p53-ATM DDR pathway and concomitant reducti...
(A and B) Western blot analysis of Atrxf/y:Ad-LacZ (–) and Atrxf/y:Ad-Cre (+) myoblasts exposed to the replication inhibitor hydroxyurea. (A) Immunoblots were probed with antibodies specific for Atrx, phospho-ATMSer1981, Chk1, phospho-Chk1Ser345, p53, and γ-H2AX; β-actin was used as loading control. (B) Immunoblots were probed with antibodies specific for Atrx, PAR, and Rad51; β-actin was used as loading control. (C) Western blot analysis of UV-induced DDR in Atrxf/y:Ad-LacZ and Atrxf/y:Ad-Cre myoblasts under high-mitogen growth conditions. Infected myoblasts were left untreated or were irradiated (10 J/m2 UV pulse), and protein was harvested at 24, 48, and 72 hours. Immunoblots were probed with antibodies specific for p53 and γ-H2AX; β-actin was used as loading control.