SS18::SSX redistributes BAF chromatin remodelers selectively to activate and repress transcription

Synovial sarcoma (SyS) is driven by the expression of a chromosomal translocation-generated SS18::SSX fusion oncoprotein ^1,2 . This oncoprotein fuses the SSX carboxy terminal tail that binds ubiquitylated histone H2A (H2AK119ub) ^3–6 to the SS18 component of both canonical (CBAF) and non-canonical (GBAF, GLTSCR1-containing) BAF-family chromatin remodeling complexes ^7–11 , wherein SS18::SSX reprograms the epigenetic landscape. Mice that express SS18::SSX develop tumors that faithfully recapitulate human SyS histopathologically and molecularly ^12–14 , allowing dissection of transcriptional reprogramming in vivo ^15,16 . Here, we show that SS18::SSX redistributes GBAF complexes broadly to promoters and distal enhancers decorated by H2AK119ub, which uncharacteristically lack the transcription-silencing trimethylation of H3K27 that otherwise accompanies H2AK119ub. Fusion-GBAF instead associates with H2AK119ub and transcription-enabling H3K4 trimethylation (promoters), monomethylation (distal enhancers), and H3K27 acetylation (both). CBAF with the fusion redistributes away from typical loci, avoids H2AK119ub-bearing regions, and instead narrowly flanks transcription start sites (TSSs), co-distributed with polybromo BAF (PBAF). Accelerated tumorigenesis in our SyS mouse model followed deletion of Smarcb1 (PBAF and CBAF), Pbrm1 (PBAF-specific), and Arid1a or Arid1b (CBAF-specific). While tumors lacking Arid1a or Arid1b retained SyS character, loss of Smarcb1 or Pbrm1 resulted in tumors lacking SyS features. These findings suggest that SyS transcriptional reprogramming includes both improper GBAF localization and gene activation at H2AK119ub-bearing regulatory regions and improper gene silencing through loss of CBAF.