Litcius/Paper detail

BRCA1 deficiency specific base substitution mutagenesis is dependent on translesion synthesis and regulated by 53BP1

Dan Chen, Judit Z. Gervai, Ádám Póti, Eszter Németh, Zoltán Szeltner, Bernadett Szikriszt, Zsolt Gyüre, Judit Zámborszky, Marta Ceccon, Fabrizio d’Adda di Fagagna, Zoltán Szállási, Andrea L. Richardson, Dávid Szüts

2022Nature Communications42 citationsDOIOpen Access PDF

Abstract

Defects in BRCA1, BRCA2 and other genes of the homology-dependent DNA repair (HR) pathway cause an elevated rate of mutagenesis, eliciting specific mutation patterns including COSMIC signature SBS3. Using genome sequencing of knock-out cell lines we show that Y family translesion synthesis (TLS) polymerases contribute to the spontaneous generation of base substitution and short insertion/deletion mutations in BRCA1 deficient cells, and that TLS on DNA adducts is increased in BRCA1 and BRCA2 mutants. The inactivation of 53BP1 in BRCA1 mutant cells markedly reduces TLS-specific mutagenesis, and rescues the deficiency of template switch-mediated gene conversions in the immunoglobulin V locus of BRCA1 mutant chicken DT40 cells. 53BP1 also promotes TLS in human cellular extracts in vitro. Our results show that HR deficiency-specific mutagenesis is largely caused by TLS, and suggest a function for 53BP1 in regulating the choice between TLS and error-free template switching in replicative DNA damage bypass.

Topics & Concepts

MutagenesisMutantBiologyMolecular biologyDNA repairGeneDNA damageDNAMutationGeneticsCell biologyCRISPR and Genetic EngineeringDNA Repair MechanismsBRCA gene mutations in cancer