posted on 2019-09-10, 13:37authored byD Munnur, J Somers, G Skalka, R Weston, R Jukes-Jones, M Bhogadia, C Dominguez, K Cain, I Ahel, M Malewicz
Although poly-ADP-ribosylation (PARylation) of DNA repair factors had been well documented, its role in the repair of DNA double-strand breaks (DSBs) is poorly understood. NR4A nuclear orphan receptors were previously linked to DSB repair; however, their function in the process remains elusive. Classically, NR4As function as transcription factors using a specialized tandem zinc-finger DNA-binding domain (DBD) for target gene induction. Here, we show that NR4A DBD is bi-functional and can bind poly-ADP-ribose (PAR) through a pocket localized in the second zinc finger. Separation-of-function mutants demonstrate that NR4A PAR binding, while dispensable for transcriptional activity, facilitates repair of radiation-induced DNA double-strand breaks in G1. Moreover, we define DNA-PKcs protein as a prominent target of ionizing radiation-induced PARylation. Mechanistically, NR4As function by directly targeting poly-ADP-ribosylated DNA-PKcs to facilitate its autophosphorylation-promoting DNA-PK kinase assembly at DNA lesions. Selective targeting of the PAR-binding pocket of NR4A presents an opportunity for cancer therapy.
Funding
MRC (Medical Research Council, UK) funds M.M.’s work. We thank Dr. Thomas Perlmann (Karolinska Institute, Stockholm, Sweden) for sharing plasmids and antibodies. We also thank Dr. Robert Haché (Ottawa, Canada) for sharing the EGFP-Ku70 expression construct. Dr. Tom Misteli (NIH, USA) is acknowledged for sharing the mCherry-LacI plasmid. We thank Dr. Benjamin Chen (UT Southwestern, USA) for providing I-SceI expression vector. We thank Dr. Kate Dudek for the microarray analysis.
History
Citation
Cell Reports, 2019, 26 (8), pp. 2028-2036.e6
Author affiliation
/Organisation/COLLEGE OF LIFE SCIENCES/Biological Sciences/Molecular & Cell Biology
Supplemental Information includes four figures and one table and can be
found with this article online at https://doi.org/10.1016/j.celrep.2019.01.083.