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  • CATACOMB: An endogenous inducible gene that antagonizes H3K27 methylation activity of Polycomb repressive complex 2 via an H3K27M-like mechanism.

CATACOMB: An endogenous inducible gene that antagonizes H3K27 methylation activity of Polycomb repressive complex 2 via an H3K27M-like mechanism.

Science advances (2019-07-10)
Andrea Piunti, Edwin R Smith, Marc A J Morgan, Michal Ugarenko, Natalia Khaltyan, Kathryn A Helmin, Caila A Ryan, David C Murray, Ryan A Rickels, Bahar D Yilmaz, Emily J Rendleman, Jeffrey N Savas, Benjamin D Singer, Serdar E Bulun, Ali Shilatifard
RÉSUMÉ

Using biochemical characterization of fusion proteins associated with endometrial stromal sarcoma, we identified JAZF1 as a new subunit of the NuA4 acetyltransferase complex and CXORF67 as a subunit of the Polycomb Repressive Complex 2 (PRC2). Since CXORF67's interaction with PRC2 leads to decreased PRC2-dependent H3K27me2/3 deposition, we propose a new name for this gene: CATACOMB (catalytic antagonist of Polycomb; official gene name: EZHIP ). We map CATACOMB's inhibitory function to a short highly conserved region and identify a single methionine residue essential for diminution of H3K27me2/3 levels. Remarkably, the amino acid sequence surrounding this critical methionine resembles the oncogenic histone H3 Lys27-to-methionine (H3K27M) mutation found in high-grade pediatric gliomas. As CATACOMB expression is regulated through DNA methylation/demethylation, we propose CATACOMB as the potential interlocutor between DNA methylation and PRC2 activity. We raise the possibility that similar regulatory mechanisms could exist for other methyltransferase complexes such as Trithorax/COMPASS.