ZEB1 is Required for NHEJ-Mediated DSB Repair in Euchromatin

Abstract

AbstractIonizing radiation-induced DSBs are repaired primarily by the Non-Homologous End Joining (NHEJ) pathway, but the details of how this is regulated in different chromatin contexts are far from understood. We have discovered a novel response to DSBs that promotes NHEJ selectively in euchromatin, based on a novel interaction between the EMT-inducing transcriptional repressor ZEB1, and the well-studied NHEJ-promoting DNA repair factor 53BP1. Using a number of approaches, we have discovered that the ZEB1-53BP1 association is amplified following exposure of cells to IR and that they co-localize at IR-induced foci (IRIF). Depletion of ZEB1 enhances radio-sensitivity and increases IR-induced chromosomal aberrations in an ATM-independent manner. The very rapid recruitment–within 2 seconds–of ZEB1 to euchromatic DSBs is like-wise ATM-independent, but DNA-PK-dependent and is required for subsequent recruitment of 53BP1. ZEB1 promotes NHEJ and inhibits HR through its homeodomain by inducing 53BP1-permissive, pro-NHEJ/anti-HR chromatin modifications. Lastly, depletion of ZEB1 increases hyper-resection at DSBs and inhibits physiological DSB repair. These results support the argument that ZEB1 plays an essential role in DSB repair in euchromatin by establishing a 53BP1-permissive/pro-NHEJ chromatin environment.