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GLI3 regulates muscle stem cell entry into G Alert and self-renewal.

Caroline E BrunMarie-Claude SincennesAlexander Y T LinDerek HallWilliam JarassierPeter FeigeFabien Le GrandMichael A Rudnicki
Published in: Nature communications (2022)
Satellite cells are required for the growth, maintenance, and regeneration of skeletal muscle. Quiescent satellite cells possess a primary cilium, a structure that regulates the processing of the GLI family of transcription factors. Here we find that GLI3 processing by the primary cilium plays a critical role for satellite cell function. GLI3 is required to maintain satellite cells in a G 0 dormant state. Strikingly, satellite cells lacking GLI3 enter the G Alert state in the absence of injury. Furthermore, GLI3 depletion stimulates expansion of the stem cell pool. As a result, satellite cells lacking GLI3 display rapid cell-cycle entry, increased proliferation and augmented self-renewal, and markedly enhanced regenerative capacity. At the molecular level, we establish that the loss of GLI3 induces mTORC1 signaling activation. Therefore, our results provide a mechanism by which GLI3 controls mTORC1 signaling, consequently regulating muscle stem cell activation and fate.
Keyphrases
  • stem cells
  • induced apoptosis
  • skeletal muscle
  • cell cycle arrest
  • cell cycle
  • signaling pathway
  • transcription factor
  • oxidative stress
  • endoplasmic reticulum stress
  • insulin resistance
  • metabolic syndrome
  • pi k akt