DePARylation is critical for S phase progression and cell survival

Author:

Nie Litong1,Wang Chao1,Huang Min1,Liu Xiaoguang1,Feng Xu1,Tang Mengfan1,Li Siting1,Hang Qinglei1,Teng Hongqi1,Shen Xi12,Ma Li1ORCID,Gan Boyi1,Chen Junjie1ORCID

Affiliation:

1. Department of Experimental Radiation Oncology, The University of Texas MD Anderson Cancer Center

2. Institute for Personalized Cancer Therapy, The University of Texas MD Anderson Cancer Center

Abstract

Poly(ADP-ribose)ylation or PARylation by PAR polymerase 1 (PARP1) and dePARylation by poly(ADP-ribose) glycohydrolase (PARG) are equally important for the dynamic regulation of DNA damage response. PARG, the most active dePARylation enzyme, is recruited to sites of DNA damage via pADPr-dependent and PCNA-dependent mechanisms. Targeting dePARylation is considered an alternative strategy to overcome PARP inhibitor resistance. However, precisely how dePARylation functions in normal unperturbed cells remains elusive. To address this challenge, we conducted multiple CRISPR screens and revealed that dePARylation of S phase pADPr by PARG is essential for cell viability. Loss of dePARylation activity initially induced S phase-specific pADPr signaling, which resulted from unligated Okazaki fragments and eventually led to uncontrolled pADPr accumulation and PARP1/2-dependent cytotoxicity. Moreover, we demonstrated that proteins involved in Okazaki fragment ligation and/or base excision repair regulate pADPr signaling and cell death induced by PARG inhibition. In addition, we determined that PARG expression is critical for cellular sensitivity to PARG inhibition. Additionally, we revealed that PARG is essential for cell survival by suppressing pADPr. Collectively, our data not only identify an essential role for PARG in normal proliferating cells but also provide a potential biomarker for the further development of PARG inhibitors in cancer therapy.

Publisher

eLife Sciences Publications, Ltd

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