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免疫球蛋白体细胞超突变:双链DNA断裂、活化诱导胞嘧啶脱氨酶与易错DNA修复。

Immunoglobulin somatic hypermutation: double-strand DNA breaks, AID and error-prone DNA repair.

作者信息

Wu Xiaoping, Feng Junli, Komori Atsumasa, Kim Edmund C, Zan Hong, Casali Paolo

机构信息

Division of Molecular Immunology, Joan and Sanford I. Weill Medical College and Graduate School of Medical Sciences, Cornell University, New York, USA.

出版信息

J Clin Immunol. 2003 Jul;23(4):235-46. doi: 10.1023/a:1024571714867.

DOI:10.1023/a:1024571714867
PMID:12959216
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4624321/
Abstract

Somatic hypermutation (SHM) is critical for antibody affinity maturation and the generation of memory B cells. Somatic mutations consist mainly of single nucleotide changes with rare insertions and deletions. Such changes would be introduced during error-prone repair of lesions involving single-strand DNA breaks (SSBs) or, more likely, double-strand DNA breaks (DSBs), as DSBs occur exclusively in genes that have the potentials to undergo SHM. In the human, such genes include Ig V, BCL6, and c-MYC. In these germline genes, DSBs are blunt. In rearranged Ig V, BCL6, and translocated c-MYC genes, blunt DSBs are processed to yield resected DNA ends. This process is dependent on the expression of activation-induced cytidine deaminase (AID), which is selectively expressed upon CD40-signaling in hypermutating B cells. CD40-induced and AID-dependent free 5'- and 3'-staggered DNA ends critically channel the repair of DSBs through the homologous recombination (HR) repair pathway. During HR, the modulation of critical translesion DNA polymerases, as signaled by cross-linking of the B cell receptor (BCR) for antigen, leads to the insertions of mismatches, i.e., mutations. The nature of DSBs, the possible roles of AID in the modification of DSBs and that of the translesion DNA polymerases zeta and iota in the subsequent repair process that lead to the insertions of mutations are discussed here within the context of an integrated model of SHM.

摘要

体细胞高频突变(SHM)对于抗体亲和力成熟和记忆B细胞的产生至关重要。体细胞突变主要由单核苷酸变化组成,伴有罕见的插入和缺失。这些变化会在涉及单链DNA断裂(SSB)或更可能是双链DNA断裂(DSB)的易错修复过程中引入,因为DSB仅发生在有潜力进行SHM的基因中。在人类中,此类基因包括Ig V、BCL6和c-MYC。在这些种系基因中,DSB是平端的。在重排的Ig V、BCL6以及易位的c-MYC基因中,平端DSB经过加工产生切除的DNA末端。这个过程依赖于激活诱导的胞苷脱氨酶(AID)的表达,AID在发生高频突变的B细胞中经CD40信号传导后选择性表达。CD40诱导且依赖AID的游离5'和3'交错DNA末端通过同源重组(HR)修复途径决定性地引导DSB的修复。在HR过程中,如抗原的B细胞受体(BCR)交联所发出的信号,关键跨损伤DNA聚合酶的调节会导致错配的插入,即突变。本文在SHM的综合模型背景下讨论了DSB的性质、AID在DSB修饰中的可能作用以及跨损伤DNA聚合酶ζ和ι在随后导致突变插入的修复过程中的作用。

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Immunoglobulin isotype switching is inhibited and somatic hypermutation perturbed in UNG-deficient mice.在UNG缺陷小鼠中,免疫球蛋白同种型转换受到抑制,体细胞超突变也受到干扰。
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