Purpose: It is known that blockage of epidermal growth factor receptor (EGFR)/phosphatidylinositol 3-kinase (PI3K) activity enhances radiation sensitivity of human tumor cells presenting a K-RAS mutation. In the present study, we investigated whether impaired repair of DNA doublestrand breaks (DSB) is responsible for the radiosensitizing effect of EGFR and PI3K inhibition in K-RAS mutated (K-RAS mt ) cells. Experimental Design: The effect of the EGFR tyrosine kinase inhibitor BIBX1382BS (BIBX) on cellular radiosensitivity was determined in K-RAS mt (A549) and K-RAS wt (FaDu) cell lines by clonogenic survival assay. Radiation-induced phosphorylation of H2AX (Ser 139 ), ATM (Ser 1981 ), and DNA-dependent protein kinase catalytic subunit (DNA-PKcs; Thr 2609 ) was analyzed by immunoblotting. Twenty-four hours after irradiation, residual DSBs were quantified by identification of gH2AX foci and frequency of micronuclei. Results: BIBX reduced clonogenic survival of K-RAS mt -A549 cells, but not of K-RAS wt -FaDu cells, after single-dose irradiation. Analysis of the radiation-induced H2AX phosphorylation revealed that BIBX, as well as the PI3K inhibitor LY294002, leads to a marked reduction of P-H2AX in K-RAS mt -A549 and MDA-MB-231 cells, but not in K-RAS wt -FaDu and HH4ded cells. Likewise, radiation-induced autophosphorylation of DNA-PKcs at Thr 2609 was only blocked in A549 cells by these two inhibitors and AKT1 small interfering RNA transfection. However, neither in K-RAS mt nor in K-RAS wt cells the inhibitors did affect radiation-induced ATM phosphorylation. As a consequence of inhibitor treatment, a significant enhancement of both residual DSBs and frequency of micronuclei was apparent only in A549 but not in FaDu cells following radiation. Conclusion: Targeting of the EGFR-dependent PI3K-AKT pathway in K-RAS-mutated A549 cells significantly affects postradiation survival by affecting the activation of DNA-PKcs, resulting in a decreased DSB repair capacity.
The results obtained strongly suggest that the number of non-repaired double-strand breaks measured 24h after irradiation can be used as an indicator of cellular radiosensitivity.
The correlation between SF2 and the initial tail moment at 5 Gy found here suggests that the cellular radiosensitivity of human fibroblasts also depends on the chromatin structure.
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