1. EGFR-Aurka Signaling Rescues Polarity and Regeneration Defects in Dystrophin-Deficient Muscle Stem Cells by Increasing Asymmetric Divisions
- Author
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Peter Feige, Yu Xin Wang, Jean-Marc Renaud, Sharlene Faulkes, Nicolas A. Dumont, Bahareh Hekmatnejad, Michael A. Rudnicki, Caroline E. Brun, and Daniel E. Guindon
- Subjects
Male ,Duchenne muscular dystrophy ,Mice, Transgenic ,Biology ,Article ,Dystrophin ,Mice ,03 medical and health sciences ,0302 clinical medicine ,Mice, Inbred NOD ,Genetics ,Asymmetric cell division ,medicine ,Animals ,Humans ,Regeneration ,Mitosis ,Cells, Cultured ,Aurora Kinase A ,030304 developmental biology ,0303 health sciences ,Stem Cells ,Regeneration (biology) ,Cell Polarity ,Skeletal muscle ,Cell Biology ,Muscular Dystrophy, Animal ,medicine.disease ,Cell biology ,ErbB Receptors ,HEK293 Cells ,medicine.anatomical_structure ,Mice, Inbred mdx ,biology.protein ,Molecular Medicine ,Female ,Stem cell ,Cell Division ,030217 neurology & neurosurgery ,Signal Transduction - Abstract
Summary Loss of dystrophin expression in Duchenne muscular dystrophy (DMD) causes progressive degeneration of skeletal muscle, which is exacerbated by reduced self-renewing asymmetric divisions of muscle satellite cells. This, in turn, affects the production of myogenic precursors and impairs regeneration and suggests that increasing such divisions may be beneficial. Here, through a small-molecule screen, we identified epidermal growth factor receptor (EGFR) and Aurora kinase A (Aurka) as regulators of asymmetric satellite cell divisions. Inhibiting EGFR causes a substantial shift from asymmetric to symmetric division modes, whereas EGF treatment increases asymmetric divisions. EGFR activation acts through Aurka to orient mitotic centrosomes, and inhibiting Aurka blocks EGF stimulation-induced asymmetric division. In vivo EGF treatment markedly activates asymmetric divisions of dystrophin-deficient satellite cells in mdx mice, increasing progenitor numbers, enhancing regeneration, and restoring muscle strength. Therefore, activating an EGFR-dependent polarity pathway promotes functional rescue of dystrophin-deficient satellite cells and enhances muscle force generation.
- Published
- 2019
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