Orientation-specific Joining of AID-initiated DNA Breaks Promotes Antibody Class Switching

Overview

Journal Nature

Specialty Science

Date 2015 Aug 27

PMID 26308889

Citations 64

Authors

Junchao Dong

Rohit A Panchakshari

Tingting Zhang

Yu Zhang

Jiazhi Hu

Sabrina A Volpi

Robin M Meyers

Yu-Jui Ho

Zhou Du

Davide F Robbiani

Feilong Meng

Monica Gostissa

Michel C Nussenzweig

John P Manis

Frederick W Alt

Affiliations

Soon will be listed here.

Abstract

During B-cell development, RAG endonuclease cleaves immunoglobulin heavy chain (IgH) V, D, and J gene segments and orchestrates their fusion as deletional events that assemble a V(D)J exon in the same transcriptional orientation as adjacent Cμ constant region exons. In mice, six additional sets of constant region exons (CHs) lie 100-200 kilobases downstream in the same transcriptional orientation as V(D)J and Cμ exons. Long repetitive switch (S) regions precede Cμ and downstream CHs. In mature B cells, class switch recombination (CSR) generates different antibody classes by replacing Cμ with a downstream CH (ref. 2). Activation-induced cytidine deaminase (AID) initiates CSR by promoting deamination lesions within Sμ and a downstream acceptor S region; these lesions are converted into DNA double-strand breaks (DSBs) by general DNA repair factors. Productive CSR must occur in a deletional orientation by joining the upstream end of an Sμ DSB to the downstream end of an acceptor S-region DSB. However, the relative frequency of deletional to inversional CSR junctions has not been measured. Thus, whether orientation-specific joining is a programmed mechanistic feature of CSR as it is for V(D)J recombination and, if so, how this is achieved is unknown. To address this question, we adapt high-throughput genome-wide translocation sequencing into a highly sensitive DSB end-joining assay and apply it to endogenous AID-initiated S-region DSBs in mouse B cells. We show that CSR is programmed to occur in a productive deletional orientation and does so via an unprecedented mechanism that involves in cis Igh organizational features in combination with frequent S-region DSBs initiated by AID. We further implicate ATM-dependent DSB-response factors in enforcing this mechanism and provide an explanation of why CSR is so reliant on the 53BP1 DSB-response factor.

Citing Articles

The LIM-domain-only protein LMO2 and its binding partner LDB1 are differentially required for class switch recombination.

Yang B, Guo Y, Liu L, Huang T, Zhao B, Bai W Proc Natl Acad Sci U S A. 2025; 122(4):e2412376122.

PMID: 39847321 PMC: 11789033. DOI: 10.1073/pnas.2412376122.

Core enhancers of the 3'RR optimize IgH nuclear position and loop conformation for successful oriented class switch recombination.

Bruzeau C, Martin O, Pollet J, Thomas M, Ba Z, Roulois D Nucleic Acids Res. 2024; 52(20):12281-12294.

PMID: 39413158 PMC: 11551739. DOI: 10.1093/nar/gkae867.

Orientation Regulation of Class-switch Recombination in Human B Cells.

Du L, Oksenych V, Wan H, Ye X, Dong J, Ye A J Immunol. 2024; 213(8):1093-1104.

PMID: 39248600 PMC: 11457721. DOI: 10.4049/jimmunol.2300842.

BRD2 promotes antibody class switch recombination by facilitating DNA repair in collaboration with NIPBL.

Gothwal S, Refaat A, Nakata M, Stanlie A, Honjo T, Begum N Nucleic Acids Res. 2024; 52(8):4422-4439.

PMID: 38567724 PMC: 11077081. DOI: 10.1093/nar/gkae204.

ATR kinase supports normal proliferation in the early S phase by preventing replication resource exhaustion.

Menolfi D, Lee B, Zhang H, Jiang W, Bowen N, Wang Y Nat Commun. 2023; 14(1):3618.

PMID: 37336885 PMC: 10279696. DOI: 10.1038/s41467-023-39332-5.

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