HEXIM1 controls satellite cell expansion after injury to regulate skeletal muscle regeneration
Peng Hong, … , Xian-Cheng Jiang, M.A.Q. Siddiqui
Peng Hong, … , Xian-Cheng Jiang, M.A.Q. Siddiqui
Published October 1, 2012
Citation Information: J Clin Invest. 2012;122(11):3873-3887. https://doi.org/10.1172/JCI62818.
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Research Article Muscle biology

HEXIM1 controls satellite cell expansion after injury to regulate skeletal muscle regeneration

Abstract

The native capacity of adult skeletal muscles to regenerate is vital to the recovery from physical injuries and dystrophic diseases. Currently, the development of therapeutic interventions has been hindered by the complex regulatory network underlying the process of muscle regeneration. Using a mouse model of skeletal muscle regeneration after injury, we identified hexamethylene bisacetamide inducible 1 (HEXIM1, also referred to as CLP-1), the inhibitory component of the positive transcription elongation factor b (P-TEFb) complex, as a pivotal regulator of skeletal muscle regeneration. Hexim1-haplodeficient muscles exhibited greater mass and preserved function compared with those of WT muscles after injury, as a result of enhanced expansion of satellite cells. Transplanted Hexim1-haplodeficient satellite cells expanded and improved muscle regeneration more effectively than WT satellite cells. Conversely, HEXIM1 overexpression restrained satellite cell proliferation and impeded muscle regeneration. Mechanistically, dissociation of HEXIM1 from P-TEFb and subsequent activation of P-TEFb are required for satellite cell proliferation and the prevention of early myogenic differentiation. These findings suggest a crucial role for the HEXIM1/P-TEFb pathway in the regulation of satellite cell–mediated muscle regeneration and identify HEXIM1 as a potential therapeutic target for degenerative muscular diseases.

Authors

Peng Hong, Kang Chen, Bihui Huang, Min Liu, Miao Cui, Inna Rozenberg, Brahim Chaqour, Xiaoyue Pan, Elisabeth R. Barton, Xian-Cheng Jiang, M.A.Q. Siddiqui

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Figure 2

Hexim1+/– muscles harbor more satellite cells during regeneration.

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Hexim1+/– muscles harbor more satellite cells during regeneration. (A...
(A) Sample section stained for Pax7 (green) and dystrophin (red). Arrowheads indicate myofiber-associated Pax7+ satellite cells. Colocalization of Pax7 and DAPI staining in the nuclei of satellite cells from the boxed region is shown to the right. Scale bar: 80 μm. (B) Average numbers of Pax7+ satellite cells per section and (C) relative satellite cell densities defined as the ratio of satellite cell number to the cross-section area and normalized to the ratio in WT muscles before injury. Results were calculated from the average values of 3 muscle sections per mouse, and 6 mice were analyzed. (D) Satellite cell percentages in injured and contralateral control muscles 4 days after injury. Plots were representative of 6 independent experiments. (E) Pax7 mRNA levels 4 days after injury (n = 3). (F) Ccnd1 mRNA levels 4 days after injury (n = 3). **P < 0.05; ***P < 0.001.