Ku70抑制g1捕获的祖B细胞的替代末端连接

Zhuoyi Liang, Vipul Kumar, M. Le Bouteiller, Jeffrey Zurita, Josefin Kenrick, Sherry G. Lin, Jiangman Lou, Jianqiao Hu, A. Y. Ye, C. Boboila, F. Alt, Richard L. Frock
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We suggest this Ku activity explains how Ku deficiency can rescue the neuronal development and embryonic lethality phenotype of ligase 4-deficient mice. Classical nonhomologous end joining (C-NHEJ) repairs DNA double-strand breaks (DSBs) throughout interphase but predominates in G1 phase when homologous recombination is unavailable. Complexes containing the Ku70/80 (“Ku”) and XRCC4/ligase IV (Lig4) core C-NHEJ factors are required, respectively, for sensing and joining DSBs. While XRCC4/Lig4 are absolutely required for joining RAG1/2 endonuclease (“RAG”)-initiated DSBs during V(D)J recombination in G1-phase progenitor lymphocytes, cycling cells deficient for XRCC4/Lig4 also can join chromosomal DSBs by alternative end-joining (A-EJ) pathways. Restriction of V(D)J recombination by XRCC4/Lig4-mediated joining has been attributed to RAG shepherding V(D)J DSBs exclusively into the C-NHEJ pathway. Here, we report that A-EJ of DSB ends generated by RAG1/2, Cas9:gRNA, and Zinc finger endonucleases in Lig4-deficient G1-arrested progenitor B cell lines is suppressed by Ku. Thus, while diverse DSBs remain largely as free broken ends in Lig4-deficient G1-arrested progenitor B cells, deletion of Ku70 increases DSB rejoining and translocation levels to those observed in Ku70-deficient counterparts. Correspondingly, while RAG-initiated V(D)J DSB joining is abrogated in Lig4-deficient G1-arrested progenitor B cell lines, joining of RAG-generated DSBs in Ku70-deficient and Ku70/Lig4 double-deficient lines occurs through a translocation-like A-EJ mechanism. Thus, in G1-arrested, Lig4-deficient progenitor B cells are functionally end-joining suppressed due to Ku-dependent blockage of A-EJ, potentially in association with G1-phase down-regulation of Lig1. 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引用次数: 16

摘要

当C-NHEJ连接酶复合体的经典非同源末端连接(C-NHEJ)因子缺失时,可选末端连接(A-EJ)参与肿瘤易位和介导DNA双链断裂(DSB)修复。然而,发生在G1细胞周期期祖淋巴细胞中的V(D)J重组相关的DSBs仅通过C-NHEJ途径连接。然而,到目前为止,在g1期祖B细胞中加入一般dsb的整体机制尚未完全阐明。在这里,我们报道了Ku,一个核心的C-NHEJ DSB识别复合物,在g1期细胞中指导多种不同的靶向DSB对C-NHEJ的修复,并抑制a - ej。我们认为这种Ku活性解释了Ku缺乏如何挽救连接酶4缺陷小鼠的神经元发育和胚胎致死性表型。经典的非同源末端连接(C-NHEJ)在整个间期修复DNA双链断裂(dsb),但在G1期当同源重组不可用时占主导地位。含有Ku70/80(“Ku”)和XRCC4/连接酶IV (Lig4)核心C-NHEJ因子的复合物分别用于感知和连接dsb。虽然在g1期祖细胞V(D)J重组过程中,XRCC4/Lig4是连接RAG1/2核酸内切酶(“RAG”)启动的dsb所绝对需要的,但缺乏XRCC4/Lig4的循环细胞也可以通过替代末端连接(A-EJ)途径连接染色体dsb。XRCC4/ lig4介导的连接对V(D)J重组的限制归因于RAG将V(D)J DSBs完全引导到C-NHEJ通路。在这里,我们报道了在lig4缺陷的g1捕获的祖B细胞系中,由RAG1/2、Cas9:gRNA和锌指内切酶产生的DSB末端的A-EJ被Ku抑制。因此,虽然不同的DSB在缺乏lig4的g1捕获的祖细胞中主要保持自由断裂端,但Ku70的缺失增加了DSB的重新连接和转运水平。相应的,虽然在Lig4缺陷的g1捕获的祖细胞B系中,rag引发的V(D)J DSB连接被取消,但在Ku70缺陷和Ku70/Lig4双缺陷系中,rag产生的DSB连接通过类似易位的a - ej机制发生。因此,在g1阻滞中,由于A-EJ的ku依赖性阻断,lig4缺陷祖细胞B细胞在功能上被末端连接抑制,这可能与g1期Lig1的下调有关。最后,我们认为Ku缺乏症与Lig4缺乏症对V(D)J重组、神经元凋亡和胚胎发育的不同影响是由于Ku介导的A-EJ在G1细胞周期期在Lig4缺乏症发育的淋巴细胞和神经元细胞中受到抑制。
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Ku70 suppresses alternative end joining in G1-arrested progenitor B cells
Significance Alternative end joining (A-EJ) is implicated in oncogenic translocations and mediating DNA double-strand-break (DSB) repair in cycling cells when classical nonhomologous end-joining (C-NHEJ) factors of the C-NHEJ ligase complex are absent. However, V(D)J recombination-associated DSBs that occur in G1 cell cycle-phase progenitor lymphocytes are joined exclusively by the C-NHEJ pathway. Until now, however, the overall mechanisms that join general DSBs in G1-phase progenitor B cells had not been fully elucidated. Here, we report that Ku, a core C-NHEJ DSB recognition complex, directs repair of a variety of different targeted DSBs toward C-NHEJ and suppresses A-EJ in G1-phase cells. We suggest this Ku activity explains how Ku deficiency can rescue the neuronal development and embryonic lethality phenotype of ligase 4-deficient mice. Classical nonhomologous end joining (C-NHEJ) repairs DNA double-strand breaks (DSBs) throughout interphase but predominates in G1 phase when homologous recombination is unavailable. Complexes containing the Ku70/80 (“Ku”) and XRCC4/ligase IV (Lig4) core C-NHEJ factors are required, respectively, for sensing and joining DSBs. While XRCC4/Lig4 are absolutely required for joining RAG1/2 endonuclease (“RAG”)-initiated DSBs during V(D)J recombination in G1-phase progenitor lymphocytes, cycling cells deficient for XRCC4/Lig4 also can join chromosomal DSBs by alternative end-joining (A-EJ) pathways. Restriction of V(D)J recombination by XRCC4/Lig4-mediated joining has been attributed to RAG shepherding V(D)J DSBs exclusively into the C-NHEJ pathway. Here, we report that A-EJ of DSB ends generated by RAG1/2, Cas9:gRNA, and Zinc finger endonucleases in Lig4-deficient G1-arrested progenitor B cell lines is suppressed by Ku. Thus, while diverse DSBs remain largely as free broken ends in Lig4-deficient G1-arrested progenitor B cells, deletion of Ku70 increases DSB rejoining and translocation levels to those observed in Ku70-deficient counterparts. Correspondingly, while RAG-initiated V(D)J DSB joining is abrogated in Lig4-deficient G1-arrested progenitor B cell lines, joining of RAG-generated DSBs in Ku70-deficient and Ku70/Lig4 double-deficient lines occurs through a translocation-like A-EJ mechanism. Thus, in G1-arrested, Lig4-deficient progenitor B cells are functionally end-joining suppressed due to Ku-dependent blockage of A-EJ, potentially in association with G1-phase down-regulation of Lig1. Finally, we suggest that differential impacts of Ku deficiency versus Lig4 deficiency on V(D)J recombination, neuronal apoptosis, and embryonic development results from Ku-mediated inhibition of A-EJ in the G1 cell cycle phase in Lig4-deficient developing lymphocyte and neuronal cells.
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