CRISPR screens reveal genetic determinants of PARP inhibitor sensitivity and resistance in prostate cancer

Takuya Tsujino; Tomoaki Takai; Kunihiko Hinohara; Fu Gui; Takeshi Tsutsumi; Xiao Bai; Chenkui Miao; Chao Feng; Bin Gui; Zsófia Sztupinszki; Antoine Simoneau; Ning Xie; Ladan Fazli; Xuesen Dong; Haruhito Azuma; Atish D. Choudhury; Kent W. Mouw; Zoltán Szállási; Lee Zou; Adam S. Kibel; Jia Li

doi:10.1038/s41467-023-35880-y

CRISPR screens reveal genetic determinants of PARP inhibitor sensitivity and resistance in prostate cancer

Takuya Tsujino(Brigham and Women's Hospital), Tomoaki Takai(Brigham and Women's Hospital), Kunihiko Hinohara(Harvard University), Fu Gui(Brigham and Women's Hospital), Takeshi Tsutsumi(Brigham and Women's Hospital), Xiao Bai(Brigham and Women's Hospital), Chenkui Miao(Brigham and Women's Hospital), Chao Feng(Brigham and Women's Hospital), Bin Gui(Brigham and Women's Hospital), Zsófia Sztupinszki(Boston Children's Hospital), Antoine Simoneau(Harvard University), Ning Xie(Vancouver General Hospital), Ladan Fazli(Vancouver General Hospital), Xuesen Dong(University of British Columbia), Haruhito Azuma(Osaka University of Pharmaceutical Sciences), Atish D. Choudhury(Harvard University), Kent W. Mouw(Brigham and Women's Hospital), Zoltán Szállási(Boston Children's Hospital), Lee Zou(Harvard University), Adam S. Kibel(Brigham and Women's Hospital), Jia Li(Brigham and Women's Hospital)

Nature Communications

January 17, 2023

10.1038/s41467-023-35880-y

Cited by 117Open Access

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Abstract

Prostate cancer harboring BRCA1/2 mutations are often exceptionally sensitive to PARP inhibitors. However, genomic alterations in other DNA damage response genes have not been consistently predictive of clinical response to PARP inhibition. Here, we perform genome-wide CRISPR-Cas9 knockout screens in BRCA1/2-proficient prostate cancer cells and identify previously unknown genes whose loss has a profound impact on PARP inhibitor response. Specifically, MMS22L deletion, frequently observed (up to 14%) in prostate cancer, renders cells hypersensitive to PARP inhibitors by disrupting RAD51 loading required for homologous recombination repair, although this response is TP53-dependent. Unexpectedly, loss of CHEK2 confers resistance rather than sensitivity to PARP inhibition through increased expression of BRCA2, a target of CHEK2-TP53-E2F7-mediated transcriptional repression. Combined PARP and ATR inhibition overcomes PARP inhibitor resistance caused by CHEK2 loss. Our findings may inform the use of PARP inhibitors beyond BRCA1/2-deficient tumors and support reevaluation of current biomarkers for PARP inhibition in prostate cancer.

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