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Homeostatic nuclear RAGE-ATM interaction is essential for efficient DNA repair.

Kumar, Varun; Fleming, Thomas; Terjung, Stefan; Gorzelanny, Christian; Gebhardt, Christoffer; Agrawal, Raman; Mall, Marcus A; Ranzinger, Julia; Zeier, Martin; Madhusudhan, Thati; Ranjan, Satish; Isermann, Berend; Liesz, Arthur; Deshpande, Divija; Häring, Hans-Ulrich; Biswas, Subrata K; Reynolds, Paul R; Hammes, Hans-Peter; Peperkok, Rainer; Angel, Peter; Herzig, Stephan; Nawroth, Peter P.
Nucleic Acids Res; 45(18): 10595-10613, 2017 Oct 13.
Artigo em Inglês | MEDLINE | ID: mdl-28977635
The integrity of genome is a prerequisite for healthy life. Indeed, defects in DNA repair have been associated with several human diseases, including tissue-fibrosis, neurodegeneration and cancer. Despite decades of extensive research, the spatio-mechanical processes of double-strand break (DSB)-repair, especially the auxiliary factor(s) that can stimulate accurate and timely repair, have remained elusive. Here, we report an ATM-kinase dependent, unforeseen function of the nuclear isoform of the Receptor for Advanced Glycation End-products (nRAGE) in DSB-repair. RAGE is phosphorylated at Serine376 and Serine389 by the ATM kinase and is recruited to the site of DNA-DSBs via an early DNA damage response. nRAGE preferentially co-localized with the MRE11 nuclease subunit of the MRN complex and orchestrates its nucleolytic activity to the ATR kinase signaling. This promotes efficient RPA2S4-S8 and CHK1S345 phosphorylation and thereby prevents cellular senescence, IPF and carcinoma formation. Accordingly, loss of RAGE causatively linked to perpetual DSBs signaling, cellular senescence and fibrosis. Importantly, in a mouse model of idiopathic pulmonary fibrosis (RAGE-/-), reconstitution of RAGE efficiently restored DSB-repair and reversed pathological anomalies. Collectively, this study identifies nRAGE as a master regulator of DSB-repair, the absence of which orchestrates persistent DSB signaling to senescence, tissue-fibrosis and oncogenesis.
Selo DaSilva