4.5 Article

Threonine 2609 Phosphorylation of the DNA-Dependent Protein Kinase Is a Critical Prerequisite for Epidermal Growth Factor Receptor-Mediated Radiation Resistance

Journal

MOLECULAR CANCER RESEARCH
Volume 10, Issue 10, Pages 1359-1368

Publisher

AMER ASSOC CANCER RESEARCH
DOI: 10.1158/1541-7786.MCR-12-0482-T

Keywords

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Funding

  1. NIH/NCI [CA129364]
  2. Simmons Comprehensive Cancer Center Bridge funds

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The EGF receptor (EGFR) contributes to tumor radioresistance, in part, through interactions with the catalytic subunit of DNA-dependent protein kinase (DNA-PKc), a key enzyme in the nonhomologous end joining DNA repair pathway. We previously showed that EGFR-DNA-PKcs interactions are significantly compromised in the context of activating mutations in EGFR in non-small cell lung carcinoma (NSCLC) and human bronchial epithelial cells. Here, we investigate the reciprocal relationship between phosphorylation status of DNA-PKcs and EGFR-mediated radiation response. The data reveal that both the kinase activity of DNA-PKcs and radiation-induced phosphorylation of DNA-PKcs by the ataxia telangiectasia-mutated (ATM) kinase are critical prerequisites for EGFR-mediated radioresponse. Alanine substitutions at seven key serine/threonine residues in DNA-PKcs or inhibition of DNA-PKcs by NU7441 completely abrogated EGFR-mediated radioresponse and blocked EGFR binding. ATM deficiency or ATM inhibition with KU55933 produced a similar effect. Importantly, alanine substitution at an ATM-dependent DNA-PKcs phosphorylation site, T2609, was sufficient to block binding or radioresponse of EGFR. However, mutation of a DNA-PKcs autophosphorylation site, S2056 had no such effect indicating that DNA-PKcs autophosphorylation is not necessary for EGFR-mediated radioresponse. Our data reveal that in both NSCLCs and human bronchial epithelial cells, activating mutations in EGFR specifically abolished the DNA-PKcs phosphorylation at T2609, but not S2056. Our study underscores the critical importance of a reciprocal relationship between DNA-PKcs phosphorylation and EGFR-mediated radiation response and elucidates mechanisms underlying mutant EGFR-associated radiosensitivity in NSCLCs. Mol Cancer Res; 10(10); 1359-68. (C) 2012 AACR.

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