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TRF2-mediated ORC recruitment underlies telomere stability upon DNA replication stress

Mitsunori Higa, Yukihiro Matsuda, Jumpei Fujii, Nozomi Sugimoto, Kazumasa Yoshida, Masatoshi Fujita

2021Nucleic Acids Research22 citationsDOIOpen Access PDF

Abstract

Telomeres are intrinsically difficult-to-replicate region of eukaryotic chromosomes. Telomeric repeat binding factor 2 (TRF2) binds to origin recognition complex (ORC) to facilitate the loading of ORC and the replicative helicase MCM complex onto DNA at telomeres. However, the biological significance of the TRF2-ORC interaction for telomere maintenance remains largely elusive. Here, we employed a TRF2 mutant with mutations in two acidic acid residues (E111A and E112A) that inhibited the TRF2-ORC interaction in human cells. The TRF2 mutant was impaired in ORC recruitment to telomeres and showed increased replication stress-associated telomeric DNA damage and telomere instability. Furthermore, overexpression of an ORC1 fragment (amino acids 244-511), which competitively inhibited the TRF2-ORC interaction, increased telomeric DNA damage under replication stress conditions. Taken together, these findings suggest that TRF2-mediated ORC recruitment contributes to the suppression of telomere instability.

Topics & Concepts

TelomereBiologyHelicaseTelomere-binding proteinMutantDNA replicationOrigin recognition complexCell biologyDNAMutationMinichromosome maintenancePre-replication complexGenome instabilityGeneticsDNA damageDNA-binding proteinControl of chromosome duplicationMolecular biologyEukaryotic DNA replicationGeneTranscription factorRNATelomeres, Telomerase, and SenescenceDNA Repair MechanismsGenetics, Aging, and Longevity in Model Organisms