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. 2018 Nov;563(7729):131-136.
doi: 10.1038/s41586-018-0629-6. Epub 2018 Oct 24.

Nuclear cGAS suppresses DNA repair and promotes tumorigenesis

Haipeng Liu #  1   2 Haiping Zhang #  3 Xiangyang Wu #  1   2 Dapeng Ma  2 Juehui Wu  1   2 Lin Wang  1   2 Yan Jiang  2 Yiyan Fei  4 Chenggang Zhu  4 Rong Tan  5 Peter Jungblut  6 Gang Pei  7 Anca Dorhoi  7   8 Qiaoling Yan  2 Fan Zhang  9 Ruijuan Zheng  1 Siyu Liu  2 Haijiao Liang  1   2 Zhonghua Liu  1 Hua Yang  1 Jianxia Chen  1   2 Peng Wang  2 Tianqi Tang  2 Wenxia Peng  2 Zhangsen Hu  3 Zhu Xu  3 Xiaochen Huang  1 Jie Wang  1 Haohao Li  1 Yilong Zhou  1   2 Feng Liu  1 Dapeng Yan  10 Stefan H E Kaufmann  7 Chang Chen  9 Zhiyong Mao  11 Baoxue Ge  12   13
Affiliations

Nuclear cGAS suppresses DNA repair and promotes tumorigenesis

Haipeng Liu et al. Nature. 2018 Nov.

Abstract

Accurate repair of DNA double-stranded breaks by homologous recombination preserves genome integrity and inhibits tumorigenesis. Cyclic GMP-AMP synthase (cGAS) is a cytosolic DNA sensor that activates innate immunity by initiating the STING-IRF3-type I IFN signalling cascade1,2. Recognition of ruptured micronuclei by cGAS links genome instability to the innate immune response3,4, but the potential involvement of cGAS in DNA repair remains unknown. Here we demonstrate that cGAS inhibits homologous recombination in mouse and human models. DNA damage induces nuclear translocation of cGAS in a manner that is dependent on importin-α, and the phosphorylation of cGAS at tyrosine 215-mediated by B-lymphoid tyrosine kinase-facilitates the cytosolic retention of cGAS. In the nucleus, cGAS is recruited to double-stranded breaks and interacts with PARP1 via poly(ADP-ribose). The cGAS-PARP1 interaction impedes the formation of the PARP1-Timeless complex, and thereby suppresses homologous recombination. We show that knockdown of cGAS suppresses DNA damage and inhibits tumour growth both in vitro and in vivo. We conclude that nuclear cGAS suppresses homologous-recombination-mediated repair and promotes tumour growth, and that cGAS therefore represents a potential target for cancer prevention and therapy.

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Comment in

  • Inhibition by nuclear cGAS.
    Otto G. Otto G. Nat Rev Mol Cell Biol. 2018 Dec;19(12):752-753. doi: 10.1038/s41580-018-0082-2. Nat Rev Mol Cell Biol. 2018. PMID: 30382173 No abstract available.

References

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    1. Harding, S. M. et al. Mitotic progression following DNA damage enables pattern recognition within micronuclei. Nature 548, 466–470 (2017). - DOI
    1. Mackenzie, K. J. et al. cGAS surveillance of micronuclei links genome instability to innate immunity. Nature 548, 461–465 (2017). - DOI
    1. Civril, F. et al. Structural mechanism of cytosolic DNA sensing by cGAS. Nature 498, 332–337 (2013). - DOI

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