TRF1 uses a noncanonical function of TFIIH to promote telomere replication.

Abstract

Telomeric DNA challenges the replisome and requires TRF1 for efficient duplication. TRF1 recruits the BLM helicase, but BLM loss does not explain the extensive telomere fragility, ATR signaling, and sister telomere associations (STAs) induced by TRF1 deletion. Here, we document that Helix2 of the TRFH domain and Helix1 of the Myb domain of TRF1 are required for efficient telomere replication. Mutation of both helices generated a TRF1 separation-of-function mutant (TRF1-E83K/LW-TI) that induced severe telomere replication defects but no ATR signaling or STAs. We identified the transcription and nucleotide excision repair (NER) factor TFIIH as a critical effector of TRF1. Loss of TFIIH subunits, but no other NER factors, caused the same telomere replication phenotypes as the TRF1-E83K/LW-TI mutant independent of the effects on TRF1 expression. TFIIH subunits coimmunoprecipitated with wild-type TRF1 but not with TRF1-E83K/LW-TI. These results establish that the major mechanism by which TRF1 ensures telomere replication involves a noncanonical function of TFIIH.