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Poly(ADP-ribosyl)ation of TIMELESS limits DNA replication stress and promotes stalled fork protection

Julie Rageul, Natalie Lo, Amy L Phi, Jinal A Patel, Jennifer J. Park, Hyungjin Kim

2024Cell Reports22 citationsDOIOpen Access PDF

Abstract

Poly(ADP-ribosyl)ation (PARylation), catalyzed mainly by poly(ADP-ribose) polymerase (PARP)1, is a key posttranslational modification involved in DNA replication and repair. Here, we report that TIMELESS (TIM), an essential scaffold of the replisome, is PARylated, which is linked to its proteolysis. TIM PARylation requires recognition of auto-modified PARP1 via two poly(ADP-ribose)-binding motifs, which primes TIM for proteasome-dependent degradation. Cells expressing the PARylation-refractory TIM mutant or under PARP inhibition accumulate TIM at DNA replication forks, causing replication stress and hyper-resection of stalled forks. Mechanistically, aberrant engagement of TIM with the replicative helicase impedes RAD51 loading and protection of reversed forks. Accordingly, defective TIM degradation hypersensitizes BRCA2-deficient cells to replication damage. Our study defines TIM as a substrate of PARP1 and elucidates how the control of replisome remodeling by PARylation is linked to stalled fork protection. Therefore, we propose a mechanism of PARP inhibition that impinges on the DNA replication fork instability caused by defective TIM turnover.

Topics & Concepts

ReplisomePoly ADP ribose polymeraseCell biologyDNA replicationBiologyHelicasePARP1Replication protein ADNA repairDNA damagePolymeraseEukaryotic DNA replicationMolecular biologyDNAGeneticsDNA-binding proteinGeneRNATranscription factorPARP inhibition in cancer therapyDNA Repair MechanismsCell death mechanisms and regulation
Poly(ADP-ribosyl)ation of TIMELESS limits DNA replication stress and promotes stalled fork protection | Litcius