I. Brammer scite author profile

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.

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Radiosensitization of NSCLC cells by EGFR inhibition is the result of an enhanced p53-dependent G1 arrest

Kriegs¹,

Gurtner

Can³

et al. 2015

Radiotherapy and Oncology

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Relationship between DNA double-strand breaks, cell killing, and fibrosis studied in confluent skin fibroblasts derived from breast cancer patients

Dikomey

Brammer

Johansen

et al. 2000

International Journal of Radiation Oncology*Biology*Physics

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The extreme radiosensitivity of the squamous cell carcinoma SKX is due to a defect in double-strand break repair

Kasten-Pisula

Menegakis

Brammer

et al. 2009

Radiotherapy and Oncology

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Correlation between cellular radiosensitivity and non-repaired double-strand breaks studied in nine mammalian cell lines

Dikomey

Dahm-Daphi²,

Brammer³

et al. 1998

International Journal of Radiation Biology

136

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Molecular mechanisms of individual radiosensitivity studied in normal diploid human fibroblasts

et al. 2003

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Relationship between cellular radiosensitivity and DNA damage measured by comet assay in human normal, NBS and AT fibroblasts

Brammer

Zöller

Dikomey

2001

International Journal of Radiation Biology

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For X-irradiated normal human fibroblasts, only half of cell inactivation results from chromosomal damage

Borgmann

Dede

Wrona

et al. 2004

International Journal of Radiation Oncology*Biology*Physics

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I. Brammer

Blockage of Epidermal Growth Factor Receptor-Phosphatidylinositol 3-Kinase-AKT Signaling Increases Radiosensitivity of K-RAS Mutated Human Tumor Cells In vitro by Affecting DNA Repair

Radiosensitization of NSCLC cells by EGFR inhibition is the result of an enhanced p53-dependent G1 arrest

Relationship between DNA double-strand breaks, cell killing, and fibrosis studied in confluent skin fibroblasts derived from breast cancer patients

The extreme radiosensitivity of the squamous cell carcinoma SKX is due to a defect in double-strand break repair

Correlation between cellular radiosensitivity and non-repaired double-strand breaks studied in nine mammalian cell lines

Molecular mechanisms of individual radiosensitivity studied in normal diploid human fibroblasts

Relationship between cellular radiosensitivity and DNA damage measured by comet assay in human normal, NBS and AT fibroblasts

For X-irradiated normal human fibroblasts, only half of cell inactivation results from chromosomal damage

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