Fibroblast growth factor–inducible 14 regulates satellite cell self-renewal and expansion during skeletal muscle repair
Meiricris Tomaz da Silva, Aniket S. Joshi, Ashok Kumar
Meiricris Tomaz da Silva, Aniket S. Joshi, Ashok Kumar
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Research Article Cell biology Muscle biology Stem cells

Fibroblast growth factor–inducible 14 regulates satellite cell self-renewal and expansion during skeletal muscle repair

Abstract

Skeletal muscle regeneration in adults is predominantly driven by satellite cells. Loss of satellite cell pool and function leads to skeletal muscle wasting in many conditions and disease states. Here, we demonstrate that the levels of fibroblast growth factor–inducible 14 (Fn14) were increased in satellite cells after muscle injury. Conditional ablation of Fn14 in Pax7-expressing satellite cells drastically reduced their expansion and skeletal muscle regeneration following injury. Fn14 was required for satellite cell self-renewal and proliferation as well as to prevent precocious differentiation. Targeted deletion of Fn14 inhibited Notch signaling but led to the spurious activation of STAT3 signaling in regenerating skeletal muscle and in cultured muscle progenitor cells. Silencing of STAT3 improved proliferation and inhibited premature differentiation of Fn14-deficient satellite cells. Furthermore, conditional ablation of Fn14 in satellite cells exacerbated myopathy in the mdx mouse model of Duchenne muscular dystrophy (DMD), whereas its overexpression improved the engraftment of exogenous muscle progenitor cells into the dystrophic muscle of mdx mice. Altogether, our study highlights the crucial role of Fn14 in the regulation of satellite cell fate and function and suggests that Fn14 can be a potential molecular target to improve muscle regeneration in muscular disorders.

Authors

Meiricris Tomaz da Silva, Aniket S. Joshi, Ashok Kumar

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Figure 1

Expression of Fn14 in satellite cells.

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Expression of Fn14 in satellite cells. (A) Violin plots showing gene exp...
(A) Violin plots showing gene expression of Fn14 (gene: Tnfrsf12a) and TWEAK (gene: Tnfsf12) in satellite cells at different time points after muscle injury in mice analyzed from a publicly available scRNA-seq dataset (GSE143435). (B) Single cells isolated from uninjured and injured TA muscle of WT mice were analyzed by FACS for the expression of α7-integrin and Fn14 protein. Representative scatter plots of FACS-based analysis demonstrate presence of Fn14+ cells among α7-integrin+ population (lower panel). (C) Satellite cells isolated from TA muscle of WT mice on day 0, 5, or 21 after injury were analyzed for mRNA levels of Fn14 by performing qPCR. n = 3 mice in each group. Data are presented as mean ± SEM and were analyzed by 1-way ANOVA followed by Tukey’s multiple-comparison test. #P ≤ 0.05, values significantly different from uninjured muscle (day 0). *P ≤ 0.05, values significantly different from 5-day-injured TA muscle. (D) Representative photomicrographs showing expression of Fn14 in Pax7+ cells in cultured mouse primary myoblasts. Scale bars: 50 μm.