端粒酶1介导的TRF1多聚（ADP - 核糖）基化在端粒DNA损伤后维持细胞存活。

Tankyrase1-mediated poly(ADP-ribosyl)ation of TRF1 maintains cell survival after telomeric DNA damage.

作者信息

Yang Lu, Sun Luxi, Teng Yaqun, Chen Hao, Gao Ying, Levine Arthur S, Nakajima Satoshi, Lan Li

机构信息

School of Medicine, Tsinghua University, No.1 Tsinghua Yuan, Haidian District, Beijing 100084, China.

University of Pittsburgh Cancer Institute; University of Pittsburgh School of Medicine; 5117 Centre Avenue, Pittsburgh, PA 15213, USA.

出版信息

Nucleic Acids Res. 2017 Apr 20;45(7):3906-3921. doi: 10.1093/nar/gkx083.

DOI:10.1093/nar/gkx083

PMID:28160604

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5397190/

Abstract

Oxidative DNA damage triggers telomere erosion and cellular senescence. However, how repair is initiated at telomeres is largely unknown. Here, we found unlike PARP1-mediated Poly-ADP-Ribosylation (PARylation) at genomic damage sites, PARylation at telomeres is mainly dependent on tankyrase1 (TNKS1). TNKS1 is recruited to damaged telomeres via its interaction with TRF1, which subsequently facilitates the PARylation of TRF1 after damage. TNKS inhibition abolishes the recruitment of the repair proteins XRCC1 and polymerase β at damaged telomeres, while the PARP1/2 inhibitor only has such an effect at non-telomeric damage sites. The ANK domain of TNKS1 is essential for the telomeric damage response and TRF1 interaction. Mutation of the tankyrase-binding motif (TBM) on TRF1 (13R/18G to AA) disrupts its interaction with TNKS1 concomitant recruitment of TNKS1 and repair proteins after damage. Either TNKS1 inhibition or TBM mutated TRF1 expression markedly sensitizes cells to telomere oxidative damage as well as XRCC1 inhibition. Together, our data reveal a novel role of TNKS1 in facilitating SSBR at damaged telomeres through PARylation of TRF1, thereby protecting genome stability and cell viability.

摘要

氧化性DNA损伤会引发端粒侵蚀和细胞衰老。然而，端粒处的修复是如何启动的，目前尚不清楚。在这里，我们发现与PARP1介导的基因组损伤位点的多聚ADP核糖基化（PARylation）不同，端粒处的PARylation主要依赖于端粒酶1（TNKS1）。TNKS1通过与TRF1的相互作用被招募到受损的端粒，随后在损伤后促进TRF1的PARylation。TNKS抑制消除了修复蛋白XRCC1和聚合酶β在受损端粒处的募集，而PARP1/2抑制剂仅在非端粒损伤位点有此作用。TNKS1的ANK结构域对于端粒损伤反应和TRF1相互作用至关重要。TRF1上的端粒酶结合基序（TBM）（13R/18G突变为AA）突变会破坏其与TNKS1的相互作用，同时也会破坏损伤后TNKS1和修复蛋白的募集。TNKS1抑制或TBM突变的TRF1表达都会显著使细胞对端粒氧化损伤以及XRCC1抑制敏感。总之，我们的数据揭示了TNKS1在通过TRF1的PARylation促进受损端粒处的单链断裂修复（SSBR）中的新作用，从而保护基因组稳定性和细胞活力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d9e6/5397190/d16db2840319/gkx083fig1.jpg

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端粒酶1介导的TRF1多聚（ADP - 核糖）基化在端粒DNA损伤后维持细胞存活。

Tankyrase1-mediated poly(ADP-ribosyl)ation of TRF1 maintains cell survival after telomeric DNA damage.

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