Abstract 3528: The SMARCA2/4 catalytic activity, but not the bromodomain, is a drug target in SWI/SNF mutant cancers

The SWI/SNF multi-subunit complex modulates chromatin structure through the activity of two mutually exclusive catalytic subunits, SMARCA2 and SMARCA4, which both contain a bromodomain and an ATPase domain. Using RNAi, cancer-specific vulnerabilities have been identified in SWI/SNF mutant tumors, including SMARCA4-deficient lung cancer, however, the contribution of conserved, druggable protein domains to this anticancer phenotype is unknown. Here, we functionally deconstructed the SMARCA2/4 paralog dependence of cancer cells using bioinformatics, genetic and pharmacological tools. We evaluated a potent and selective SMARCA2/4 bromodomain inhibitor (PFI-3) and characterized its activity in chromatin-binding and cell-functional assays focusing on cells with altered SWI/SNF status (e.g. Lung, Synovial Sarcoma, Leukemia, and Rhabdoid tumors). We demonstrated that PFI-3 is a cell-permeable probe capable of displacing ectopically expressed, GFP-tagged SMARCA2-bromodomain from chromatin, yet contrary to target knockdown, the inhibitor failed to display an antiproliferative phenotype. Mechanistically, the lack of pharmacological efficacy was reconciled by the failure of bromodomain inhibition to displace endogenous, full-length SMARCA2 from chromatin as determined by in situ cell extraction, chromatin immunoprecipitation (ChIP) and target gene expression and promoter occupancy studies. Using RNAi and cDNA complementation (bromodomain and ATPase-dead constructs), we identified the catalytic ATPase domain, and not the bromodomain of SMARCA2, as a relevant therapeutic target. Taken together, our complementary genetic and pharmacological studies exemplify a general strategy for bromodomain drug-target validation and in case of SMARCA2/4 highlight the requirement for drugging the more challenging helicase/ATPase domain affording potential synthetic-lethal treatment options to cancer patients with genetically defined alterations in SWI/SNF. Citation Format: Bhavatarini Vangamudi, Thomas Paul, Parantu K. Shah, Maria K. Alimova, Lisa Nottebaum, Xi Shi, Yanai Zhan, Elisabetta Leo, Harshad S. Mahadeshwar, Alexei Protopopov, Andrew Futreal, Trang N. Tieu, Mike Peoples, Alessia Petrocchi, Joseph R. Marszalek, Carlo Toniatti, Timothy P. Heffernan, Dominique Verhelle, Giulio Draetta, Dafydd Owen, Philip Jones, Wylie Palmer, Shikhar Sharma, Jannik N. Andersen. The SMARCA2/4 catalytic activity, but not the bromodomain, is a drug target in SWI/SNF mutant cancers. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 3528. doi:10.1158/1538-7445.AM2015-3528