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FAM111A protects replication forks from protein obstacles via its trypsin-like domain

Yusuke Kojima, Yuka Machida, Sowmiya Palani, Thomas R. Caulfield, Evette S. Radisky, Scott H. Kaufmann, Yuichi Machida, Yuichi Machida, Yuichi Machida

2020Nature Communications115 citationsDOIOpen Access PDF

Abstract

Persistent protein obstacles on genomic DNA, such as DNA-protein crosslinks (DPCs) and tight nucleoprotein complexes, can block replication forks. DPCs can be removed by the proteolytic activities of the metalloprotease SPRTN or the proteasome in a replication-coupled manner; however, additional proteolytic mechanisms may exist to cope with the diversity of protein obstacles. Here, we show that FAM111A, a PCNA-interacting protein, plays an important role in mitigating the effect of protein obstacles on replication forks. This function of FAM111A requires an intact trypsin-like protease domain, the PCNA interaction, and the DNA-binding domain that is necessary for protease activity in vivo. FAM111A, but not SPRTN, protects replication forks from stalling at poly(ADP-ribose) polymerase 1 (PARP1)-DNA complexes trapped by PARP inhibitors, thereby promoting cell survival after drug treatment. Altogether, our findings reveal a role of FAM111A in overcoming protein obstacles to replication forks, shedding light on cellular responses to anti-cancer therapies.

Topics & Concepts

DNA replicationReplication factor CCell biologyProteaseBiologyPoly ADP ribose polymeraseReplication protein AEukaryotic DNA replicationProliferating cell nuclear antigenPolymeraseDNAMolecular biologyChemistryBiochemistryDNA-binding proteinEnzymeGeneTranscription factorDNA Repair MechanismsPARP inhibition in cancer therapyCRISPR and Genetic Engineering