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ATM protein-dependent phosphorylation of Rad50 protein regulates DNA repair and cell cycle control.

The Journal of biological chemistry (2011-07-16)
Magtouf Gatei, Burkhard Jakob, Philip Chen, Amanda W Kijas, Olivier J Becherel, Nuri Gueven, Geoff Birrell, Ji-Hoon Lee, Tanya T Paull, Yaniv Lerenthal, Shazrul Fazry, Gisela Taucher-Scholz, Reinhard Kalb, Detlev Schindler, Regina Waltes, Thilo Dörk, Martin F Lavin
RESUMEN

The Mre11/Rad50/NBN complex plays a central role in coordinating the cellular response to DNA double-strand breaks. The importance of Rad50 in that response is evident from the recent description of a patient with Rad50 deficiency characterized by chromosomal instability and defective ATM-dependent signaling. We report here that ATM (defective in ataxia-telangiectasia) phosphorylates Rad50 at a single site (Ser-635) that plays an important adaptor role in signaling for cell cycle control and DNA repair. Although a Rad50 phosphosite-specific mutant (S635G) supported normal activation of ATM in Rad50-deficient cells, it was defective in correcting DNA damage-induced signaling through the ATM-dependent substrate SMC1. This mutant also failed to correct radiosensitivity, DNA double-strand break repair, and an S-phase checkpoint defect in Rad50-deficient cells. This was not due to disruption of the Mre11/Rad50/NBN complex revealing for the first time that phosphorylation of Rad50 plays a key regulatory role as an adaptor for specific ATM-dependent downstream signaling through SMC1 for DNA repair and cell cycle checkpoint control in the maintenance of genome integrity.