ARID1A Deficiency Impairs the DNA Damage Checkpoint and Sensitizes Cells to PARP Inhibitors

Jianfeng Shen; Yang Peng; Leizhen Wei; Wei Zhang; Lin Yang; Li Lan; Prabodh Kapoor; Zhenlin Ju; Qianxing Mo; Ie Ming Shih; Ivan P. Uray; Xiangwei Wu; Powel H. Brown; Xuetong Shen; Gordon B. Mills; Guang Peng

doi:10.1158/2159-8290.CD-14-0849

ARID1A Deficiency Impairs the DNA Damage Checkpoint and Sensitizes Cells to PARP Inhibitors

Jianfeng Shen, Yang Peng, Leizhen Wei, Wei Zhang, Lin Yang, Li Lan, Prabodh Kapoor, Zhenlin Ju, Qianxing Mo, Ie Ming Shih, Ivan P. Uray, Xiangwei Wu, Powel H. Brown, Xuetong Shen, Gordon B. Mills, Guang Peng

School of Medicine

Research output: Contribution to journal › Article › peer-review

198 Scopus citations

Abstract

ARID1A, SWI/SNF chromatin remodeling complex subunit, is a recently identified tumor suppressor that is mutated in a broad spectrum of human cancers. Thus, it is of fundamental clinical importance to understand its molecular functions and determine whether ARID1A deficiency can be exploited therapeutically. In this article, we report a key function of ARID1A in regulating the DNA damage checkpoint. ARID1A is recruited to DNA double-strand breaks (DSB) via its interaction with the upstream DNA damage checkpoint kinase ATR. At the molecular level, ARID1A facilitates efficient processing of DSB to single-strand ends and sustains DNA damage signaling. Importantly, ARID1A deficiency sensitizes cancer cells to PARP inhibitors in vitro and in vivo, providing a potential therapeutic strategy for patients with ARID1A-mutant tumors.

Original language	English (US)
Pages (from-to)	752-767
Number of pages	16
Journal	Cancer discovery
Volume	5
Issue number	7
DOIs	https://doi.org/10.1158/2159-8290.CD-14-0849
State	Published - Jul 2015

ASJC Scopus subject areas

Oncology

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title = "ARID1A Deficiency Impairs the DNA Damage Checkpoint and Sensitizes Cells to PARP Inhibitors",

abstract = "ARID1A, SWI/SNF chromatin remodeling complex subunit, is a recently identified tumor suppressor that is mutated in a broad spectrum of human cancers. Thus, it is of fundamental clinical importance to understand its molecular functions and determine whether ARID1A deficiency can be exploited therapeutically. In this article, we report a key function of ARID1A in regulating the DNA damage checkpoint. ARID1A is recruited to DNA double-strand breaks (DSB) via its interaction with the upstream DNA damage checkpoint kinase ATR. At the molecular level, ARID1A facilitates efficient processing of DSB to single-strand ends and sustains DNA damage signaling. Importantly, ARID1A deficiency sensitizes cancer cells to PARP inhibitors in vitro and in vivo, providing a potential therapeutic strategy for patients with ARID1A-mutant tumors.",

author = "Jianfeng Shen and Yang Peng and Leizhen Wei and Wei Zhang and Lin Yang and Li Lan and Prabodh Kapoor and Zhenlin Ju and Qianxing Mo and Shih, {Ie Ming} and Uray, {Ivan P.} and Xiangwei Wu and Brown, {Powel H.} and Xuetong Shen and Mills, {Gordon B.} and Guang Peng",

note = "Funding Information: This work was supported in part by Cancer Center Support Grant CA016672 from the National Cancer Institute (NCI); the NCI Ovarian SPORE (MDACC) Career Development Award, P50 CA83639 (to G. Peng); NCI grant R00 CA149186 (to G. Peng); P50 CA098258 and P50 CA083639 (to G.B. Mills); and the Adelson Medical Research Foundation (00000205 and 00000196; to G.B. Mills). Publisher Copyright: {\textcopyright} 2015 American Association for Cancer Research.",

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doi = "10.1158/2159-8290.CD-14-0849",

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AU - Shen, Jianfeng

AU - Peng, Yang

AU - Wei, Leizhen

AU - Zhang, Wei

AU - Yang, Lin

AU - Lan, Li

AU - Kapoor, Prabodh

AU - Ju, Zhenlin

AU - Mo, Qianxing

AU - Shih, Ie Ming

AU - Uray, Ivan P.

AU - Wu, Xiangwei

AU - Brown, Powel H.

AU - Shen, Xuetong

AU - Mills, Gordon B.

AU - Peng, Guang

N1 - Funding Information: This work was supported in part by Cancer Center Support Grant CA016672 from the National Cancer Institute (NCI); the NCI Ovarian SPORE (MDACC) Career Development Award, P50 CA83639 (to G. Peng); NCI grant R00 CA149186 (to G. Peng); P50 CA098258 and P50 CA083639 (to G.B. Mills); and the Adelson Medical Research Foundation (00000205 and 00000196; to G.B. Mills). Publisher Copyright: © 2015 American Association for Cancer Research.

PY - 2015/7

Y1 - 2015/7

N2 - ARID1A, SWI/SNF chromatin remodeling complex subunit, is a recently identified tumor suppressor that is mutated in a broad spectrum of human cancers. Thus, it is of fundamental clinical importance to understand its molecular functions and determine whether ARID1A deficiency can be exploited therapeutically. In this article, we report a key function of ARID1A in regulating the DNA damage checkpoint. ARID1A is recruited to DNA double-strand breaks (DSB) via its interaction with the upstream DNA damage checkpoint kinase ATR. At the molecular level, ARID1A facilitates efficient processing of DSB to single-strand ends and sustains DNA damage signaling. Importantly, ARID1A deficiency sensitizes cancer cells to PARP inhibitors in vitro and in vivo, providing a potential therapeutic strategy for patients with ARID1A-mutant tumors.

AB - ARID1A, SWI/SNF chromatin remodeling complex subunit, is a recently identified tumor suppressor that is mutated in a broad spectrum of human cancers. Thus, it is of fundamental clinical importance to understand its molecular functions and determine whether ARID1A deficiency can be exploited therapeutically. In this article, we report a key function of ARID1A in regulating the DNA damage checkpoint. ARID1A is recruited to DNA double-strand breaks (DSB) via its interaction with the upstream DNA damage checkpoint kinase ATR. At the molecular level, ARID1A facilitates efficient processing of DSB to single-strand ends and sustains DNA damage signaling. Importantly, ARID1A deficiency sensitizes cancer cells to PARP inhibitors in vitro and in vivo, providing a potential therapeutic strategy for patients with ARID1A-mutant tumors.

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ARID1A Deficiency Impairs the DNA Damage Checkpoint and Sensitizes Cells to PARP Inhibitors

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