ABSTRACT
The conserved Runt-related (RUNX) transcription factor family are master regulators of developmental and regenerative processes. Runx1 and Runx2 are expressed in satellite cells (SCs) and in skeletal myotubes. Here, we examined the role of Runx1 in mouse satellite cells to determine the role of Runx1 during muscle differentiation. Conditional deletion of Runx1 in adult SCs negatively impacted self-renewal and impaired skeletal muscle maintenance even though Runx2 expression persisted. Runx1 deletion in C2C12 cells (which retain Runx2 expression) identified unique molecular functions of Runx1 that could not be compensated for by Runx2. The reduced myoblast fusion in vitro caused by Runx1 loss was due in part to ectopic expression of Mef2c, a target repressed by Runx1. Structure-function analysis demonstrated that the ETS-interacting MID/EID region of Runx1, absent from Runx2, is essential for Runx1 myoblast function and for Etv4 binding. Analysis of ChIP-seq datasets from Runx1 (T cells, muscle)- versus Runx2 (preosteoblasts)-dependent tissues identified a composite ETS:RUNX motif enriched in Runx1-dependent tissues. The ETS:RUNX composite motif was enriched in peaks open exclusively in ATAC-seq datasets from wild-type cells compared to ATAC peaks unique to Runx1 knockout cells. Thus, engagement of a set of targets by the RUNX1/ETS complex define the non-redundant functions of Runx1 in mouse muscle precursor cells.
Footnotes
Author contributions
Conceptualization: R.K., M.R.H.; Formal analysis: K.T., S.P., M.R.H.; Investigation: M.Y., W.W., C.Y., M.R.H.; Writing - original draft: M.Y., R.K., M.R.H.; Supervision: X.L., R.K., M.R.H.
Funding
This study was supported by funds from the William K. Schubert Endowment to R.K. R.K. and M.H. were funded in part by a National Institutes of General Medical Sciences (NIH GM55479 awarded to R.K.). M.Y. and X.L. were funded by the National Natural Science Foundation of China (31730044 and 32192403 awarded to X.L.) and by the Science and Technology Commission of Shanghai Municipality (20DZ2261200 awarded to X.L.). Deposited in PMC for release after 12 months.