CtIP 介导的 DNA 切除对于通过替代末端连接的 IgH 类别转换重组是可有可无的。

CtIP-mediated DNA resection is dispensable for IgH class switch recombination by alternative end-joining.

机构信息

Institute for Cancer Genetics, Vagelos College for Physicians and Surgeons, Columbia University, New York, NY 10032.

Graduate Program of Pathobiology and Molecular Medicine, Vagelos College for Physicians and Surgeons, Columbia University, New York, NY 10032.

出版信息

Proc Natl Acad Sci U S A. 2020 Oct 13;117(41):25700-25711. doi: 10.1073/pnas.2010972117. Epub 2020 Sep 28.

DOI:10.1073/pnas.2010972117

PMID:32989150

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7568320/

Abstract

To generate antibodies with different effector functions, B cells undergo Immunoglobulin Heavy Chain (IgH) class switch recombination (CSR). The ligation step of CSR is usually mediated by the classical nonhomologous end-joining (cNHEJ) pathway. In cNHEJ-deficient cells, a remarkable ∼25% of CSR can be achieved by the alternative end-joining (Alt-EJ) pathway that preferentially uses microhomology (MH) at the junctions. While A-EJ-mediated repair of endonuclease-generated breaks requires DNA end resection, we show that CtIP-mediated DNA end resection is dispensable for A-EJ-mediated CSR using cNHEJ-deficient B cells. High-throughput sequencing analyses revealed that loss of ATM/ATR phosphorylation of CtIP at T855 or ATM kinase inhibition suppresses resection without altering the MH pattern of the A-EJ-mediated switch junctions. Moreover, we found that ATM kinase promotes Alt-EJ-mediated CSR by suppressing interchromosomal translocations independent of end resection. Finally, temporal analyses reveal that MHs are enriched in early internal deletions even in cNHEJ-proficient B cells. Thus, we propose that repetitive IgH switch regions represent favored substrates for MH-mediated end-joining contributing to the robustness and resection independence of A-EJ-mediated CSR.

摘要

为了产生具有不同效应功能的抗体，B 细胞经历免疫球蛋白重链（IgH）类别转换重组（CSR）。CSR 的连接步骤通常由经典的非同源末端连接（cNHEJ）途径介导。在 cNHEJ 缺陷细胞中，通过优先在连接处使用微同源性（MH）的替代末端连接（Alt-EJ）途径，可以实现显著的约 25%的 CSR。虽然 Alt-EJ 介导的内切酶产生的断裂修复需要 DNA 末端切除，但我们表明，CtIP 介导的 DNA 末端切除对于 cNHEJ 缺陷 B 细胞中的 Alt-EJ 介导的 CSR 是可有可无的。高通量测序分析显示，CtIP 的 T855 处 ATM/ATR 磷酸化的缺失或 ATM 激酶抑制会抑制切除，而不会改变 Alt-EJ 介导的开关连接处的 MH 模式。此外，我们发现 ATM 激酶通过抑制染色体间易位而不依赖于末端切除来促进 Alt-EJ 介导的 CSR。最后，时间分析表明，MH 在早期内部缺失中富集，即使在 cNHEJ 功能正常的 B 细胞中也是如此。因此，我们提出，重复的 IgH 开关区域代表 MH 介导的末端连接的有利底物，有助于 Alt-EJ 介导的 CSR 的稳健性和切除独立性。

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