Ccaat/Enhancer-Binding Protein Beta Promotes Muscle Stem Cell Quiescence Through Regulation Of Quiescence-Associated Genes

Regeneration of skeletal muscle depends on resident muscle stem cells called satellite cells that in healthy, uninjured muscle remain quiescent (noncycling). After activation and expansion of satellite cells postinjury, satellite cell numbers return to uninjured levels and return to mitotic quiescence. Here, we show that the transcription factor CCAAT/enhancer-binding protein beta (C/EBP beta) is required to maintain quiescence of satellite cells in uninjured muscle. We show that C/EBP beta is expressed in quiescent satellite cells in vivo and upregulated in noncycling myoblasts in vitro. Loss of C/EBP beta in satellite cells promotes their premature exit from quiescence resulting in spontaneous activation and differentiation of the stem cell pool. Forced expression of C/EBP beta in myoblasts inhibits proliferation by upregulation of 28 quiescence-associated genes. Furthermore, we find that caveolin-1 is a direct transcriptional target of C/EBP beta and is required for cell cycle exit in muscle satellite cells expressing C/EBP beta. The induction of mitotic quiescence is considered necessary for the long-term maintenance of adult stem cell populations with dysregulation driving increased differentiation of progenitors and depletion of the stem cell pool. Our findings place C/EBP beta as an important transcriptional regulator of muscle satellite cell quiescence.