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The protease SPRTN and SUMOylation coordinate DNA-protein crosslink repair to prevent genome instability

Annamaria Ruggiano, Bruno Vaz, Susan Kilgas, Marta Popović, Gonzalo Rodríguez‐Berriguete, Abhay Narayan Singh, Geoff S. Higgins, Anne E. Kiltie, Kristijan Ramadan

2021Cell Reports56 citationsDOIOpen Access PDF

Abstract

DNA-protein crosslinks (DPCs) are a specific type of DNA lesion in which proteins are covalently attached to DNA. Unrepaired DPCs lead to genomic instability, cancer, neurodegeneration, and accelerated aging. DPC proteolysis was recently identified as a specialized pathway for DPC repair. The DNA-dependent protease SPRTN and the 26S proteasome emerged as two independent proteolytic systems. DPCs are also repaired by homologous recombination (HR), a canonical DNA repair pathway. While studying the cellular response to DPC formation, we identify ubiquitylation and SUMOylation as two major signaling events in DNA replication-coupled DPC repair. DPC ubiquitylation recruits SPRTN to repair sites, promoting DPC removal. DPC SUMOylation prevents DNA double-strand break formation, HR activation, and potentially deleterious genomic rearrangements. In this way, SUMOylation channels DPC repair toward SPRTN proteolysis, which is a safer pathway choice for DPC repair and prevention of genomic instability.

Topics & Concepts

SUMO proteinGenome instabilityDNA repairDNA damageReplication protein ACell biologyBiologyDNAProteasomeProteolysisHomologous recombinationUbiquitinXRCC1RAD52Molecular biologyChemistryGeneticsDNA-binding proteinBiochemistryRAD51GeneEnzymeTranscription factorGenotypeSingle-nucleotide polymorphismUbiquitin and proteasome pathwaysDNA Repair MechanismsMicrotubule and mitosis dynamics
The protease SPRTN and SUMOylation coordinate DNA-protein crosslink repair to prevent genome instability | Litcius