TRAF6 regulates satellite stem cell self-renewal and function during regenerative myogenesis
Sajedah M. Hindi, Ashok Kumar
Sajedah M. Hindi, Ashok Kumar
Published November 30, 2015
Citation Information: J Clin Invest. 2016;126(1):151-168. https://doi.org/10.1172/JCI81655.
View: Text | PDF
Research Article Muscle biology Article has an altmetric score of 82

TRAF6 regulates satellite stem cell self-renewal and function during regenerative myogenesis

Abstract

Satellite cells are a stem cell population within adult muscle and are responsible for myofiber regeneration upon injury. Satellite cell dysfunction has been shown to underlie the loss of skeletal muscle mass in many acquired and genetic muscle disorders. The transcription factor paired box-protein-7 (PAX7) is indispensable for supplementing the reservoir of satellite cells and driving regeneration in normal and diseased muscle. TNF receptor–associated factor 6 (TRAF6) is an adaptor protein and an E3 ubiquitin ligase that mediates the activation of multiple cell signaling pathways in a context-dependent manner. Here, we demonstrated that TRAF6-mediated signaling is critical for homeostasis of satellite cells and their function during regenerative myogenesis. Selective deletion of Traf6 in satellite cells of adult mice led to profound muscle regeneration defects and dramatically reduced levels of PAX7 and late myogenesis markers. TRAF6 was required for the activation of MAPKs ERK1/2 and JNK1/2, which in turn activated the transcription factor c-JUN, which binds the Pax7 promoter and augments Pax7 expression. Moreover, TRAF6/c-JUN signaling repressed the levels of the microRNAs miR-1 and miR-206, which promote differentiation, to maintain PAX7 levels in satellite cells. We also determined that satellite cell–specific deletion of Traf6 exaggerates the dystrophic phenotype in the mdx (a mouse model of Duchenne muscular dystrophy) mouse by blunting the regeneration of injured myofibers. Collectively, our study reveals an essential role for TRAF6 in satellite stem cell function.

Authors

Sajedah M. Hindi, Ashok Kumar

×

Figure 10

Depletion of TRAF6 in satellite cells exacerbates myopathy in mdx mice.

Options: View larger image (or click on image) Download as PowerPoint
Depletion of TRAF6 in satellite cells exacerbates myopathy in mdx mice. ...
(A) Representative pictures of 8-week-old mdx;Traf6fl/fl and mdx;TRAF6scko mice. (B) Average body weight. (C) Forelimb and total grip strength normalized with body weight. (D) Average wet weight of TA, GA, and quadriceps (Quad) muscle of mdx;Traf6fl/fl and mdx;TRAF6scko mice. (E) CK activity in serum of 8-week-old Traf6fl/fl and TRAF6scko mice. (F) Representative photomicrograph of GA muscle sections of 8-week-old mdx;Traf6fl/fl and mdx;TRAF6scko mice after staining for H&E, anti-eMyHC, or anti-PAX7/anti-laminin/DAPI. Arrows indicate satellite cells in muscle sections. Scale bars: 50 μm for H&E images, 20 μm for eMyHC and PAX7 images. (GJ) Quantification of number of fibers per unit area (G), percentage of centrally nucleated fibers (H), number of eMyHC+ fibers per unit area (I), and percentage of PAX7+ cells/fiber (J). Error bars represent SD. n = 4 or 5 mice in each group. *P < 0.05 (vs. corresponding mdx;Traf6fl/fl mice) by unpaired t test.