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Profilin-1 regulates DNA replication forks in a context-dependent fashion by interacting with SNF2H and BOD1L

Cuige Zhu, Mari Iwase, Ziqian Li, Faliang Wang, Annabel Quinet, Alessandro Vindigni, Jieya Shao

2022Nature Communications13 citationsDOIOpen Access PDF

Abstract

DNA replication forks are tightly controlled by a large protein network consisting of well-known core regulators and many accessory factors which remain functionally undefined. In this study, we report previously unknown nuclear functions of the actin-binding factor profilin-1 (PFN1) in DNA replication, which occur in a context-dependent fashion and require its binding to poly-L-proline (PLP)-containing proteins instead of actin. In unperturbed cells, PFN1 increases DNA replication initiation and accelerates fork progression by binding and stimulating the PLP-containing nucleosome remodeler SNF2H. Under replication stress, PFN1/SNF2H increases fork stalling and functionally collaborates with fork reversal enzymes to enable the over-resection of unprotected forks. In addition, PFN1 binds and functionally attenuates the PLP-containing fork protector BODL1 to increase the resection of a subset of stressed forks. Accordingly, raising nuclear PFN1 level decreases genome stability and cell survival during replication stress. Thus, PFN1 is a multi-functional regulator of DNA replication with exploitable anticancer potential.

Topics & Concepts

DNA replicationContext (archaeology)Cell biologyDNAReplication (statistics)BiologyGeneticsVirologyPaleontologyDNA Repair MechanismsMicrotubule and mitosis dynamicsGenomics and Chromatin Dynamics