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小鼠DNA修复因子XLF和DNA-PKcs之间的合成致死性可通过Ku70失活来挽救。

Synthetic lethality between murine DNA repair factors XLF and DNA-PKcs is rescued by inactivation of Ku70.

作者信息

Xing Mengtan, Bjørås Magnar, Daniel Jeremy A, Alt Frederick W, Oksenych Valentyn

机构信息

Institute for Cancer Research and Molecular Medicine, Norwegian University of Science and Technology, Laboratory Center, Erling Skjalgssons Gate 1, 7491 Trondheim, Norway.

The NNF Center for Protein Research, Faculty of Health and Medical Sciences, University of Copenhagen, Blegdamsvej 3B, 2200 Copenhagen, Denmark.

出版信息

DNA Repair (Amst). 2017 Sep;57:133-138. doi: 10.1016/j.dnarep.2017.07.008. Epub 2017 Jul 26.

DOI:10.1016/j.dnarep.2017.07.008
PMID:28759779
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5584571/
Abstract

DNA double-strand breaks (DSBs) are recognized and repaired by the Classical Non-Homologous End-Joining (C-NHEJ) and Homologous Recombination pathways. C-NHEJ includes the core Ku70 and Ku80 (or Ku86) heterodimer that binds DSBs and thus promotes recruitment of accessory downstream NHEJ factors XLF, PAXX, DNA-PKcs, Artemis and other core subunits, XRCC4 and DNA Ligase 4 (Lig4). In the absence of core C-NHEJ factors, DNA repair can be performed by Alternative End-Joining, which likely depends on DNA Ligase 1 and DNA Ligase 3. Genetic inactivation of C-NHEJ factors, such as Ku70, Ku80, XLF, PAXX and DNA-PKcs results in viable mice showing increased levels of genomic instability and sensitivity to DSBs. Knockouts of XRCC4 or Lig4, on the other hand, as well as combined inactivation of XLF and DNA-PKcs, or XLF and PAXX, result in late embryonic lethality in mice, which in most cases correlate with severe apoptosis in the central nervous system. Here, we demonstrate that inactivation of the Ku70 gene rescues the synthetic lethality between XLF and DNA-PKcs, resulting in triple knockout mice that are indistinguishable from Ku70-deficient littermates by size or levels of genomic instability. Moreover, we find that combined inactivation of Ku70 and XLF results in viable mice. Together, these findings suggest that Ku70 is epistatic with XLF and DNA-PKcs and support a model in which inactivation of Ku70 allows DNA lesions to become accessible to alternative DNA repair pathways.

摘要

DNA双链断裂(DSB)可通过经典非同源末端连接(C-NHEJ)和同源重组途径被识别和修复。C-NHEJ包括核心Ku70和Ku80(或Ku86)异源二聚体,其结合DSB,从而促进下游辅助NHEJ因子XLF、PAXX、DNA-PKcs、Artemis及其他核心亚基、XRCC4和DNA连接酶4(Lig4)的募集。在缺乏核心C-NHEJ因子的情况下,DNA修复可通过替代末端连接进行,这可能依赖于DNA连接酶1和DNA连接酶3。C-NHEJ因子(如Ku70、Ku80、XLF、PAXX和DNA-PKcs)的基因失活会导致存活的小鼠出现基因组不稳定性增加和对DSB敏感性增强的情况。另一方面,XRCC4或Lig4的敲除,以及XLF和DNA-PKcs或XLF和PAXX的联合失活,会导致小鼠胚胎后期致死,在大多数情况下这与中枢神经系统中的严重凋亡相关。在此,我们证明Ku70基因的失活挽救了XLF和DNA-PKcs之间的合成致死性,产生的三敲除小鼠在体型或基因组不稳定性水平上与Ku70缺陷的同窝小鼠无异。此外,我们发现Ku70和XLF的联合失活会产生存活的小鼠。总之,这些发现表明Ku70在XLF和DNA-PKcs之上,并支持一种模型,即Ku70的失活使DNA损伤能够被替代DNA修复途径所利用。

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本文引用的文献

1
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Nat Commun. 2017 Jan 4;8:13816. doi: 10.1038/ncomms13816.
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Synthetic lethality between PAXX and XLF in mammalian development.PAXX与XLF在哺乳动物发育过程中的合成致死性。
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PAXX Is an Accessory c-NHEJ Factor that Associates with Ku70 and Has Overlapping Functions with XLF.PAXX是一种辅助性非同源末端连接因子,与Ku70相关联,并与XLF具有重叠功能。
Biomolecules. 2021 Dec 31;12(1):61. doi: 10.3390/biom12010061.
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DNA End Joining: G0-ing to the Core.DNA 末端连接:深入核心的 G0 之旅。
Biomolecules. 2021 Oct 9;11(10):1487. doi: 10.3390/biom11101487.
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Non-Homologous End Joining Factors XLF, PAXX and DNA-PKcs Maintain the Neural Stem and Progenitor Cell Population.非同源末端连接因子 XLF、PAXX 和 DNA-PKcs 维持神经干细胞和祖细胞群体。
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