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Article Abstract
Synovial sarcoma (SySa) is an aggressive soft tissue sarcoma with an urgent need to develop targeted therapies. Here, we exploited specific vulnerabilities created by transcriptional rewiring by the fusion protein SS18::SSX, the sole oncogenic driver in SySa. To uncover genes that are selectively essential for the fitness of SySa cells compared to other tumor cell lines, we mined the Cancer-Dependency-Map data. Targeted CRISPR library screening of SySa-selective candidates revealed that the small ubiquitin-like modifier 2 (SUMO2) constituted one of the strongest dependencies both in vitro and in vivo. TAK-981, a clinical-stage small-molecule SUMO2 inhibitor potently suppressed growth and colony-forming ability. Transcriptomic profiling showed that SUMO2 inhibition elicited a profound reversal of the gene expression program orchestrated by SS18::SSX fusion. Further, genetic depletion or SUMO2 inhibition reduced global expression levels and chromatin occupancy of the SS18::SSX fusion protein with a concomitant reduction in histone 2A lysine 119 ubiquitination (H2AK119ub), an epigenetic mark facilitating SySa pathogenesis. Taken together, our study identifies SUMO2 as a novel, selective vulnerability in synovial sarcoma, suggesting new avenues for targeted treatment of soft tissue tumors.
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