DNA-PK and the TRF2 iDDR inhibit MRN-initiated resection at leading-end telomeres

Abstract

AbstractTelomeres replicated by leading-strand synthesis lack the 3’ overhang required for telomere protection. Surprisingly, resection of these blunt telomere is initiated by the telomere-specific 5’ exonuclease Apollo rather than the Mre11-Rad50-Nbs1 (MRN) complex, the nuclease that acts at DNA breaks. Without Apollo, leading-end telomeres undergo fusion, which, as demonstrated here, are mediated by alternative End Joining. Here, we show that DNA-PK and TRF2 coordinate the repression of MRN at blunt telomeres. DNA-PK represses an MRN-dependent long range resection at blunt telomeres, while the endonuclease activity of MRN/CtIP, which could cleave DNA-PK off of blunt telomere ends, is inhibitedin vitroandin vivoby the iDDR of TRF2. AlphaFold-Multimer predicts a conserved association of the iDDR with Rad50 potentially interfering with CtIP binding and MRN endonuclease activation. We propose that repression of MRN-mediated resection is a conserved aspect of telomere maintenance and represents an ancient feature of DNA-PK and the iDDR.