Two Functional Axes of Feedback-Enforced PRC2 Recruitment in Mouse Embryonic Stem Cells

Polycomb Repressive Complex 2 (PRC2) plays an essential role in gene repression during development, catalyzing H3 lysine 27 trimethylation (H3K27me3). MTF2 in the PRC2.1 sub-complex, and JARID2 in PRC2.2, are central in core PRC2 recruitment to target genes in mouse embryonic stem cells (mESCs). To investigate how PRC2.1 and PRC2.2 cooperate, we combined Polycomb mutant mESCs with chemical inhibition of binding to H3K27me3. We find that PRC2.1 and PRC2.2 mediate two distinct paths for recruitment, which are mutually reinforced. Whereas PRC2.1 recruitment is mediated by MTF2 binding to DNA, JARID2-containing PRC2.2 recruitment is more dependent on PRC1. Both recruitment axes are supported by core subunit EED binding to H3K27me3, but EED inhibition exhibits a more pronounced effect in Jarid2 null cells. Finally, we show that PRC1 and PRC2 enhance reciprocal binding. Together, these data disentangle the interdependent interactions that are important for PRC2 recruitment. [Display omitted] •Systematic analysis of PRC2 genomic binding in mouse ESCs•Mutations and chemical inhibition uncover roles of EED and other interactions•Contributions of MTF2 to PRC2.1 binding and of JARID2 and PRC1 to PRC2.2 binding•PRC1, PRC2.1, and PRC2.2 are all mutually interdependent for binding to chromatin Veenstra and Marks and colleagues systematically analyze the contributions of Polycomb Repressive Complexes PRC2.1, PRC2.2, and PRC1 in ESCs, using null mutations in combination with chemical inhibition of EED, the core subunit that interacts with H3K27me3. The mutations and the EED inhibition uncover the functional overlap, and the compensatory and highly interdependent binding of PRC2.1, PRC2.2, and PRC1.