Abstract

Abstract CRISPR-based functional genomic screening is a powerful approach for identifying novel classes of synthetic lethal drug targets. Here, we define the deubiquitinase USP1 as a synthetic lethal target in cancers with underlying DNA repair vulnerabilities. A highly potent and selective small molecule USP1 inhibitor conferred a viability defect in BRCA1-mutant, but not WT cell lines by activating replication stress. Genome-wide CRISPR screening uncovered RAD18 and UBE2K, which promote PCNA mono- and poly-ubiquitination respectively, as key mediators of USP1-BRCA1 dependency. Increased cellular mono- and poly-ubiquitination reduced PCNA protein levels, and restoration of PCNA protein expression rescued USP1 inhibitor sensitivity. USP1 dependency is associated with upregulated RAD18 and UBE2K expression, suggesting that elevated PCNA ubiquitination in the context of BRCA1 deficiency mediates USP1 synthetic lethality. Interestingly, USP1, but not PARP1 inhibition, elicited a viability defect in a subset of BRCA1/2 WT lung cancer cell lines, indicative of novel synthetic lethal interactions unique to USP1. Moreover, dual inhibition of PARP1 and USP1 are strongly synergistic in PARP1 inhibitor-responsive cell line models. Strong in vivo anti-tumor activity across multiple tumor models was demonstrated with USP1 inhibition alone and in combination with the PARP1 inhibitor olaparib. Our studies suggest that USP1 and PARP1 inhibitors target BRCA1-mutant cancer though distinct yet synergistic mechanisms. As such, USP1 inhibitors may provide novel treatment strategies for PARP1 inhibitor-resistant and -naïve BRCA1-mutant cancer. Citation Format: Justin Engel, Madhavi Bandi, Antione Simoneau, Katherine Lazarides, Deepali Gotur, Truc Pham, Shangtao Liu, Samuel Meier, Ashley Choi, Hongxiang Zhang, Binzhang Shen, Fang Li, Douglas Whittington, Shanzhong Gong, Xuewen Pan, Yi Yu, Lina Gu, Scott Throner, John Maxwell, Yingnan Chen, Alan Huang, Jannik Andersen, Tianshu Feng. USP1 inhibitor synthetic lethality in BRCA1-mutant cancer is driven by PCNA ubiquitination [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2603.

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