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Genome-wide CRISPR screen identifies synthetic lethality between DOCK1 inhibition and metformin in liver cancer
Authors:Junru Feng  Hui Lu  Wenhao Ma  Wenjing Tian  Zhuan Lu  Hongying Yang  Yongping Cai  Pengfei Cai  Yuchen Sun  Zilong Zhou  Jiaqian Feng  Jiazhong Deng  Ying Shu  Kun Qu  Weidong Jia  Ping Gao  Huafeng Zhang
Abstract:Metformin is currently a strong candidate anti-tumor agent in multiple cancers. However, its anti-tumor effectiveness varies among different cancers or subpopulations, potentially due to tumor heterogeneity. It thus remains unclear which hepatocellular carcinoma (HCC) patient subpopulation(s) can benefit from metformin treatment. Here, through a genome-wide CRISPR-Cas9-based knockout screen, we find that DOCK1 levels determine the anti-tumor effects of metformin and that DOCK1 is a synthetic lethal target of metformin in HCC. Mechanistically, metformin promotes DOCK1 phosphorylation, which activates RAC1 to facilitate cell survival, leading to metformin resistance. The DOCK1-selective inhibitor, TBOPP, potentiates anti-tumor activity by metformin in vitro in liver cancer cell lines and patient-derived HCC organoids, and in vivo in xenografted liver cancer cells and immunocompetent mouse liver cancer models. Notably, metformin improves overall survival of HCC patients with low DOCK1 levels but not among patients with high DOCK1 expression. This study shows that metformin effectiveness depends on DOCK1 levels and that combining metformin with DOCK1 inhibition may provide a promising personalized therapeutic strategy for metformin-resistant HCC patients.Supplementary InformationThe online version contains supplementary material available at 10.1007/s13238-022-00906-6.
Keywords:CRISPR screen   DOCK1   hepatocellular carcinoma   metformin   small GTPase
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