通过替代 NHEJ 修复 S-G2/M 期 G1 诱导的 DNA 双链断裂。

Repair of G1 induced DNA double-strand breaks in S-G2/M by alternative NHEJ.

机构信息

Genome Integrity, Immunity and Cancer Unit, Equipe Labellisée Ligue Contre Le Cancer, Institut Pasteur, 75015, Paris, France.

Genome Dynamics in the Immune System Laboratory, Equipe Labellisée Ligue Contre Le Cancer, INSERM UMR 1163, Université Paris Descartes Sorbonne Paris Cité, Institut Imagine, 75015, Paris, France.

出版信息

Nat Commun. 2020 Oct 16;11(1):5239. doi: 10.1038/s41467-020-19060-w.

DOI:10.1038/s41467-020-19060-w

PMID:33067475

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7567796/

Abstract

The alternative non-homologous end-joining (NHEJ) pathway promotes DNA double-strand break (DSB) repair in cells deficient for NHEJ or homologous recombination, suggesting that it operates at all stages of the cell cycle. Here, we use an approach in which DNA breaks can be induced in G1 cells and their repair tracked, enabling us to show that joining of DSBs is not functional in G1-arrested XRCC4-deficient cells. Cell cycle entry into S-G2/M restores DSB repair by Pol θ-dependent and PARP1-independent alternative NHEJ with repair products bearing kilo-base long DNA end resection, micro-homologies and chromosome translocations. We identify a synthetic lethal interaction between XRCC4 and Pol θ under conditions of G1 DSBs, associated with accumulation of unresolved DNA ends in S-G2/M. Collectively, our results support the conclusion that the repair of G1 DSBs progressing to S-G2/M by alternative NHEJ drives genomic instability and represent an attractive target for future DNA repair-based cancer therapies.

摘要

非同源末端连接（NHEJ）途径的替代途径促进了 NHEJ 或同源重组缺陷细胞中的 DNA 双链断裂（DSB）修复，表明它在细胞周期的所有阶段都起作用。在这里，我们使用一种方法，其中可以在 G1 期诱导 DNA 断裂，并跟踪其修复，使我们能够表明在 G1 期阻滞的 XRCC4 缺陷细胞中，DSB 的连接没有功能。细胞周期进入 S-G2/M 期通过依赖 Pol θ 和不依赖 PARP1 的替代性 NHEJ 恢复 DSB 修复，修复产物带有长达千碱基的 DNA 末端切除、微同源性和染色体易位。我们在 G1 DSB 条件下鉴定了 XRCC4 和 Pol θ 之间的合成致死相互作用，这与 S-G2/M 中未解决的 DNA 末端的积累有关。总的来说，我们的结果支持这样的结论，即通过替代性 NHEJ 进行到 S-G2/M 的 G1 DSB 的修复会导致基因组不稳定性，这代表了未来基于 DNA 修复的癌症治疗的一个有吸引力的目标。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9be6/7567796/e80682838f2c/41467_2020_19060_Fig1_HTML.jpg

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通过替代 NHEJ 修复 S-G2/M 期 G1 诱导的 DNA 双链断裂。

Repair of G1 induced DNA double-strand breaks in S-G2/M by alternative NHEJ.

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