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1
Ku80 is required for immunoglobulin isotype switching.免疫球蛋白同种型转换需要Ku80。
EMBO J. 1998 Apr 15;17(8):2404-11. doi: 10.1093/emboj/17.8.2404.
2
Ku70 is required for late B cell development and immunoglobulin heavy chain class switching.Ku70是晚期B细胞发育和免疫球蛋白重链类别转换所必需的。
J Exp Med. 1998 Jun 15;187(12):2081-9. doi: 10.1084/jem.187.12.2081.
3
Generation of switch hybrid DNA between Ig heavy chain-mu and downstream switch regions in B lymphocytes.B淋巴细胞中Ig重链-μ与下游转换区之间开关杂交DNA的产生。
J Immunol. 1998 Aug 1;161(3):1354-62.
4
Ig heavy chain protein controls B cell development by regulating germ-line transcription and retargeting V(D)J recombination.免疫球蛋白重链蛋白通过调节种系转录和重新靶向V(D)J重组来控制B细胞发育。
J Immunol. 1994 Aug 15;153(4):1645-57.
5
Switch circles from IL-4-directed epsilon class switching from human B lymphocytes. Evidence for direct, sequential, and multiple step sequential switch from mu to epsilon Ig heavy chain gene.从人B淋巴细胞中IL-4定向的ε类转换中切换循环。从μ到ε Ig重链基因直接、顺序和多步顺序转换的证据。
J Immunol. 1994 Apr 1;152(7):3427-35.
6
Switch recombination in a transfected plasmid occurs preferentially in a B cell line that undergoes switch recombination of its chromosomal Ig heavy chain genes.转染质粒中的转换重组优先发生在经历其染色体 Ig 重链基因转换重组的 B 细胞系中。
J Immunol. 1999 Aug 15;163(4):2028-40.
7
Ku70 is required for DNA repair but not for T cell antigen receptor gene recombination In vivo.Ku70是DNA修复所必需的,但在体内并非T细胞抗原受体基因重组所必需。
J Exp Med. 1997 Sep 15;186(6):921-9. doi: 10.1084/jem.186.6.921.
8
Requirement for Ku80 in growth and immunoglobulin V(D)J recombination.生长及免疫球蛋白V(D)J重组过程中对Ku80的需求。
Nature. 1996 Aug 8;382(6591):551-5. doi: 10.1038/382551a0.
9
Interallelic class switch recombination contributes significantly to class switching in mouse B cells.等位基因间类别转换重组对小鼠B细胞的类别转换有显著贡献。
J Immunol. 2005 May 15;174(10):6176-83. doi: 10.4049/jimmunol.174.10.6176.
10
Overexpression of BSAP/Pax-5 inhibits switching to IgA and enhances switching to IgE in the I.29 mu B cell line.在I.29μ B细胞系中,BSAP/Pax - 5的过表达抑制向IgA的类别转换并增强向IgE的类别转换。
J Immunol. 1998 Sep 15;161(6):2906-18.

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2
BRD2 promotes antibody class switch recombination by facilitating DNA repair in collaboration with NIPBL.BRD2 通过与 NIPBL 协作促进 DNA 修复来促进抗体类别转换重组。
Nucleic Acids Res. 2024 May 8;52(8):4422-4439. doi: 10.1093/nar/gkae204.
3
Senataxin and RNase H2 act redundantly to suppress genome instability during class switch recombination.Senataxin 和 RNase H2 冗余性地发挥作用,以抑制类别转换重组过程中的基因组不稳定性。
Elife. 2022 Dec 21;11:e78917. doi: 10.7554/eLife.78917.
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DNA Damage Response and Repair in Adaptive Immunity.适应性免疫中的DNA损伤反应与修复
Front Cell Dev Biol. 2022 May 17;10:884873. doi: 10.3389/fcell.2022.884873. eCollection 2022.
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Switch Tandem Repeats Influence the Choice of the Alternative End-Joining Pathway in Immunoglobulin Class Switch Recombination.串联重复序列影响免疫球蛋白类别转换重组中替代末端连接途径的选择。
Front Immunol. 2022 May 16;13:870933. doi: 10.3389/fimmu.2022.870933. eCollection 2022.
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Tracking Immunoglobulin Repertoire and Transcriptomic Changes in Germinal Center B Cells by Single-Cell Analysis.通过单细胞分析追踪生发中心 B 细胞中的免疫球蛋白库和转录组变化。
Front Immunol. 2022 Jan 12;12:818758. doi: 10.3389/fimmu.2021.818758. eCollection 2021.
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SAMHD1-mediated dNTP degradation is required for efficient DNA repair during antibody class switch recombination.SAMHD1 介导的 dNTP 降解是抗体类别转换重组过程中有效 DNA 修复所必需的。
EMBO J. 2020 Aug 3;39(15):e102931. doi: 10.15252/embj.2019102931. Epub 2020 Jun 8.
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53BP1 Supports Immunoglobulin Class Switch Recombination Independently of Its DNA Double-Strand Break End Protection Function.53BP1 独立于其 DNA 双链断裂末端保护功能支持免疫球蛋白类别转换重组。
Cell Rep. 2019 Aug 6;28(6):1389-1399.e6. doi: 10.1016/j.celrep.2019.06.035.
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Heterogeneous nuclear ribonucleoprotein L facilitates recruitment of 53BP1 and BRCA1 at the DNA break sites induced by oxaliplatin in colorectal cancer.异质核核糖核蛋白 L 促进 oxaliplatin 诱导的结直肠癌 DNA 断裂部位 53BP1 和 BRCA1 的募集。
Cell Death Dis. 2019 Jul 18;10(8):550. doi: 10.1038/s41419-019-1784-x.
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CDCA7 and HELLS mutations undermine nonhomologous end joining in centromeric instability syndrome.CDCA7 和 HELLS 突变破坏着着丝粒不稳定综合征中的非同源末端连接。
J Clin Invest. 2019 Jan 2;129(1):78-92. doi: 10.1172/JCI99751. Epub 2018 Nov 19.

本文引用的文献

1
Ku protein stimulates DNA end joining by mammalian DNA ligases: a direct role for Ku in repair of DNA double-strand breaks.Ku蛋白通过哺乳动物DNA连接酶刺激DNA末端连接:Ku在DNA双链断裂修复中的直接作用。
EMBO J. 1998 Jan 15;17(2):609-14. doi: 10.1093/emboj/17.2.609.
2
Ig Sgamma3 DNA-specifc double strand breaks are induced in mitogen-activated B cells and are implicated in switch recombination.Ig Sgamma3 DNA特异性双链断裂在丝裂原激活的B细胞中被诱导,并与类别转换重组有关。
J Immunol. 1997 Nov 1;159(9):4139-44.
3
V(D)J recombination in mature B cells: a mechanism for altering antibody responses.成熟B细胞中的V(D)J重组:一种改变抗体反应的机制。
Science. 1997 Oct 10;278(5336):298-301. doi: 10.1126/science.278.5336.298.
4
Ku70 is required for DNA repair but not for T cell antigen receptor gene recombination In vivo.Ku70是DNA修复所必需的,但在体内并非T细胞抗原受体基因重组所必需。
J Exp Med. 1997 Sep 15;186(6):921-9. doi: 10.1084/jem.186.6.921.
5
RAG1 and RAG2 form a stable postcleavage synaptic complex with DNA containing signal ends in V(D)J recombination.在V(D)J重组过程中,RAG1和RAG2与含有信号末端的DNA形成稳定的切割后突触复合体。
Cell. 1997 Apr 4;89(1):43-53. doi: 10.1016/s0092-8674(00)80181-6.
6
B cell development under the condition of allelic inclusion.等位基因包含情况下的B细胞发育
Immunity. 1997 Mar;6(3):225-33. doi: 10.1016/s1074-7613(00)80325-8.
7
Identification of a Saccharomyces cerevisiae Ku80 homologue: roles in DNA double strand break rejoining and in telomeric maintenance.酿酒酵母Ku80同源物的鉴定:在DNA双链断裂修复和端粒维持中的作用。
Nucleic Acids Res. 1996 Dec 1;24(23):4639-48. doi: 10.1093/nar/24.23.4639.
8
Saccharomyces cerevisiae Ku70 potentiates illegitimate DNA double-strand break repair and serves as a barrier to error-prone DNA repair pathways.酿酒酵母Ku70增强非同源末端连接修复,并作为易出错的DNA修复途径的屏障。
EMBO J. 1996 Sep 16;15(18):5093-103.
9
The SCID but not the RAG-2 gene product is required for S mu-S epsilon heavy chain class switching.Sμ-Sε重链类别转换需要SCID基因产物,但不需要RAG-2基因产物。
Immunity. 1996 Oct;5(4):319-30. doi: 10.1016/s1074-7613(00)80258-7.
10
A prematurely expressed Ig(kappa) transgene, but not V(kappa)J(kappa) gene segment targeted into the Ig(kappa) locus, can rescue B cell development in lambda5-deficient mice.一个过早表达的Ig(κ)转基因,而非靶向Ig(κ)基因座的V(κ)J(κ)基因片段,能够挽救λ5缺陷小鼠的B细胞发育。
Immunity. 1996 Sep;5(3):229-39. doi: 10.1016/s1074-7613(00)80318-0.

免疫球蛋白同种型转换需要Ku80。

Ku80 is required for immunoglobulin isotype switching.

作者信息

Casellas R, Nussenzweig A, Wuerffel R, Pelanda R, Reichlin A, Suh H, Qin X F, Besmer E, Kenter A, Rajewsky K, Nussenzweig M C

机构信息

Laboratory of Molecular Immunology, The Rockefeller University, New York, NY 10021, USA.

出版信息

EMBO J. 1998 Apr 15;17(8):2404-11. doi: 10.1093/emboj/17.8.2404.

DOI:10.1093/emboj/17.8.2404
PMID:9545251
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1170583/
Abstract

Isotype switching is the DNA recombination mechanism by which antibody genes diversify immunoglobulin effector functions. In contrast to V(D)J recombination, which is mediated by RAG1, RAG2 and DNA double-stranded break (DSB) repair proteins, little is known about the mechanism of switching. We have investigated the role of DNA DSB repair in switch recombination in mice that are unable to repair DSBs due to a deficiency in Ku80 (Ku80(-/-)). B-cell development is arrested at the pro-B cell stage in Ku80(-/-) mice because of abnormalities in V(D)J recombination, and there are no mature B cells. To reconstitute the B-cell compartment in Ku80(-/-) mice, pre-rearranged VB1-8 DJH2 (mu i) and V3-83JK2 (kappa i) genes were introduced into the Ku80(-/-) background (Ku80(-/-)mu i/+kappa i/+). Ku80(-/-)mu i/+ kappai/+ mice develop mature mIgM+ B cells that respond normally to lipopolysaccharide (LPS) or LPS plus interleukin-4 (IL-4) by producing specific germline Ig constant region transcripts and by forming switch region-specific DSBs. However, Ku80(-/-)mu i/+kappa i/+ B cells are unable to produce immunoglobulins of secondary isotypes, and fail to complete switch recombination. Thus, Ku80 is essential for switch recombination in vivo, suggesting a significant overlap between the molecular machinery that mediates DNA DSB repair, V(D)J recombination and isotype switching.

摘要

同种型转换是一种DNA重组机制,通过该机制抗体基因使免疫球蛋白效应功能多样化。与由RAG1、RAG2和DNA双链断裂(DSB)修复蛋白介导的V(D)J重组不同,人们对转换机制知之甚少。我们研究了DNA DSB修复在因Ku80缺陷(Ku80(-/-))而无法修复DSB的小鼠的转换重组中的作用。由于V(D)J重组异常,Ku80(-/-)小鼠的B细胞发育在原B细胞阶段停滞,且没有成熟的B细胞。为了在Ku80(-/-)小鼠中重建B细胞区室,将预先重排的VB1-8 DJH2(μi)和V3-83JK2(κi)基因导入Ku80(-/-)背景(Ku80(-/-)μi/+κi/+)。Ku80(-/-)μi/+κi/+小鼠发育出成熟的mIgM+B细胞,这些细胞通过产生特定的种系Ig恒定区转录本并形成转换区特异性DSB,对脂多糖(LPS)或LPS加白细胞介素-4(IL-4)产生正常反应。然而,Ku80(-/-)μi/+κi/+ B细胞无法产生二级同种型的免疫球蛋白,并且无法完成转换重组。因此,Ku80对于体内转换重组至关重要,这表明介导DNA DSB修复、V(D)J重组和同种型转换的分子机制之间存在显著重叠。