RYBP regulates selective genomic binding of TrxG and PcG components in embryonic stem cell fate control
Chao Wei, Jun Sun, Zhuoyan Liu, Mulan Wang, Jin Tan, Xiaona Huang, Ranran Dai, Kang Su, Shiwen Yang, Tara S R Chen, Qi Tian, Xiuxiao Tang, Xiaolin Tian, Dong-Feng Huang, Jin Bai, Xue Xiao, Xiaoting Shen, Juan Xia, Junjun Ding, Lili Fan
Abstract
Abstract Selective gene expression is pivotal in orchestrating human development. Specifically, trithorax group (TrxG) and polycomb group (PcG) components play crucial roles in transcriptional activation and repression of state-specific stem cell expression programs, yet the mechanisms underlying their selective genomic binding remain poorly understood. In this study, we report that the polycomb repressive complex 1 (PRC1) subunit RYBP co-localizes with TrxG component WDR5 and selectively enriches PcG component RING1B in condensates in murine embryonic stem cells (ESCs). RYBP deficiency impairs the genomic binding of WDR5 and RING1B. Further, STAT3 excludes RING1B binding at RYBP-associated transcriptionally active loci. Additionally, RYBP depletion attenuates WDR5-dependent activation of DNA repair gene expression and facilitates the transition of ESCs to 2-cell-like cells. Finally, RYBP depletion disrupts RING1B deposition at lineage-specific genes, promoting ESC differentiation towards mesendoderm fate. These findings uncover RYBP as a regulator of selective genomic binding of TrxG and PcG components, providing insights into their roles in cell fate determination during development.