Muscle stem (satellite) cells express Pax7, a key transcription factor essential for satellite cell maintenance and adult muscle regeneration. We identify the corepressor transducin-like enhancer of split-4 (TLE4) as a Pax7 interaction partner expressed in quiescent satellite cells under homeostasis. A subset of satellite cells transiently downregulate TLE4 during early time points following muscle injury. We identify these to be activated satellite cells, and that TLE4 downregulation is required for Myf5 activation and myogenic commitment. Our results indicate that TLE4 represses Pax7-mediated Myf5 transcriptional activation by occupying the -111 kb Myf5 enhancer to maintain quiescence. Loss of TLE4 function causes Myf5 upregulation, an increase in satellite cell numbers and altered differentiation dynamics during regeneration. Thus, we have uncovered a novel mechanism to maintain satellite cell quiescence and regulate muscle differentiation mediated by the corepressor TLE4.
Keywords: Mouse; Myf5; Pax7; Quiescence; Regeneration; Satellite cells; Skeletal muscle; TLE4.
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