Fam72a Enforces Error-prone DNA Repair During Antibody Diversification

Overview

Journal Nature

Specialty Science

Date 2021 Nov 25

PMID 34819671

Citations 20

Authors

Melanie Rogier

Jacques Moritz

Isabelle Robert

Chloe Lescale

Vincent Heyer

Arthur Abello

Ophelie Martin

Katia Capitani

Morgane Thomas

Anne-Sophie Thomas-Claudepierre

Brice Laffleur

Florence Jouan

Eric Pinaud

Karin Tarte

Michel Cogne

Silvestro G Conticello

Evi Soutoglou

Ludovic Deriano

Bernardo Reina-San-Martin

Affiliations

Soon will be listed here.

Abstract

Efficient humoral responses rely on DNA damage, mutagenesis and error-prone DNA repair. Diversification of B cell receptors through somatic hypermutation and class-switch recombination are initiated by cytidine deamination in DNA mediated by activation-induced cytidine deaminase (AID) and by the subsequent excision of the resulting uracils by uracil DNA glycosylase (UNG) and by mismatch repair proteins. Although uracils arising in DNA are accurately repaired, how these pathways are co-opted to generate mutations and double-strand DNA breaks in the context of somatic hypermutation and class-switch recombination is unknown. Here we performed a genome-wide CRISPR-Cas9 knockout screen for genes involved in class-switch recombination and identified FAM72A, a protein that interacts with the nuclear isoform of UNG (UNG2) and is overexpressed in several cancers. We show that the FAM72A-UNG2 interaction controls the levels of UNG2 and that class-switch recombination is defective in Fam72a B cells due to the upregulation of UNG2. Moreover, we show that somatic hypermutation is reduced in Fam72a B cells and that its pattern is skewed upon upregulation of UNG2. Our results are consistent with a model in which FAM72A interacts with UNG2 to control its physiological level by triggering its degradation, regulating the level of uracil excision and thus the balance between error-prone and error-free DNA repair. Our findings have potential implications for tumorigenesis, as reduced levels of UNG2 mediated by overexpression of Fam72a would shift the balance towards mutagenic DNA repair, rendering cells more prone to acquire mutations.

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