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A Damage-Independent Role for 53BP1 that Impacts Break Order and Igh Architecture during Class Switch Recombination.


ABSTRACT: During class switch recombination (CSR), B cells replace the Igh C? or ? exons with another downstream constant region exon (CH), altering the antibody isotype. CSR occurs through the introduction of AID-mediated double-strand breaks (DSBs) in switch regions and subsequent ligation of broken ends. Here, we developed an assay to investigate the dynamics of DSB formation in individual cells. We demonstrate that the upstream switch region S? is first targeted during recombination and that the mechanism underlying this control relies on 53BP1. Surprisingly, regulation of break order occurs through residual binding of 53BP1 to chromatin before the introduction of damage and independent of its established role in DNA repair. Using chromosome conformation capture, we show that 53BP1 mediates changes in chromatin architecture that affect break order. Finally, our results explain how changes in Igh architecture in the absence of 53BP1 could promote inversional rearrangements that compromise CSR.

SUBMITTER: Rocha PP 

PROVIDER: S-EPMC4927351 | biostudies-literature | 2016 Jun

REPOSITORIES: biostudies-literature

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A Damage-Independent Role for 53BP1 that Impacts Break Order and Igh Architecture during Class Switch Recombination.

Rocha Pedro P PP   Raviram Ramya R   Fu Yi Y   Kim JungHyun J   Luo Vincent M VM   Aljoufi Arafat A   Swanzey Emily E   Pasquarella Alessandra A   Balestrini Alessia A   Miraldi Emily R ER   Bonneau Richard R   Petrini John J   Schotta Gunnar G   Skok Jane A JA  

Cell reports 20160616 1


During class switch recombination (CSR), B cells replace the Igh Cμ or δ exons with another downstream constant region exon (CH), altering the antibody isotype. CSR occurs through the introduction of AID-mediated double-strand breaks (DSBs) in switch regions and subsequent ligation of broken ends. Here, we developed an assay to investigate the dynamics of DSB formation in individual cells. We demonstrate that the upstream switch region Sμ is first targeted during recombination and that the mecha  ...[more]

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