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Original Articles

A potential new role of ATM inhibitor in radiotherapy: suppressing ionizing Radiation-Activated EGFR

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Pages 461-468 | Received 08 Sep 2019, Accepted 14 Dec 2019, Published online: 08 Jan 2020
 

Abstract

Purpose: Although EGFR inhibitor (EGFRi) is used in cancer therapy to suppress tumor growth and resistance to treatment including radiotherapy, EGFRi resistance frequently developed, which significantly reduced treatment outcomes. Therefore, developing alternative approaches for EGFRi is of great importance. Based on our recent observation that ATM inhibitor (ATMi) efficiently inhibited ionizing radiation (IR)-induced EGFR activation in mouse embryo fibroblasts (MEF), the main purpose of this study is to determine whether ATMi could inhibit IR-induced EGFR activation in human tumor cell lines and explore its potential in EGFRi-alternative therapies.

Materials and methods: We compared the effects of ATMi, EGFRi individually or in combination on IR-induced EGFR phosphorylation, cell growth and radio-sensitization in nine human tumor cell lines including lung adenocarcinoma (A549 and H358), glioblastoma (LN229), cervical cancer (HeLa), colorectal carcinoma (SW480 and HCT116) and nasopharygeal carcinoma (5–8 F, 6–10B and HK1) cell lines. In addition, we detected the effects of ATMi, EGFRi alone or both on the efficiency of non-homologous end-joining (NHEJ) and homologous recombination (HR) using I-SceI –GFP based NHEJ or HR reporter cell lines.

Results: Compared to EGFRi treatment, ATMi treatment decreased IR-induced EGFR phosphorylation, suppressed growth and increased IR sensitization in tested cell lines at a similar or even more efficient level. Combining ATMi and EGFRi did not significantly increased the effects on these phenotypes as ATMi treatment alone. Also, similar to ATMi, EGFRi mainly reduced the efficiency of HR but not NHEJ although combining ATMi and EGFRi further inhibited the HR efficiency.

Conclusions: Our study demonstrates that ATMi can function like EGFRi in human tumor cells to inhibit tumor cell growth and sensitize the tumor cells to IR, suggesting that ATMi treatment as an alternative approach may exert anticancer effects on EGFRi-resistant tumor cells and facilitate radiotherapy.

Author contributors

Experiments were designed by Y.W. and L.S. Experiments were performed by S.T. and Z.L. Data were analyzed by S.T., L.Y. and Z.L. Manuscript was written and reviewed by Y.W., S.T. and Z.L.

Disclosure statement

The authors declare no conflict interest. The authors are responsible for the content of the paper.

Additional information

Funding

This work was supported by Winship Cancer Institute Pilot Grant (YW) and Central South University provided fellowship (ST).

Notes on contributors

Siyuan Tang

Siyuan Tang, MD, received her doctor degree from Central South University, Changsha, China. She has a joint training at Emory University, Atlanta, USA and Xiangya Hospital, Central South University, Changsha, China and now she is a postdoctoral fellow in Xiangya Hospital, Central South University, China.

Zhentian Li

Zhentian Li, MD/PhD, received his doctor degree from Wuhan University, Wuhan, China. He currently works at the Department of Radiation Oncology, School of Medicine, Emory University, Atlanta, USA.

Lifang Yang

Lifang Yang, PhD, received his doctor degree from Central South University, Changsha, China. He currently as a professor works at Cancer Research Institute, School of Basic Medicine Science, Central South University, Changsha, China.

Liangfang Shen

Liangfang Shen, MD, received his doctor degree from Norman Bethune Health Science Center of Jilin University, Changchun, China. He currently as a professor and director works at the Department of Radiation Oncology, Central South University, Changsha, China.

Ya Wang

Ya Wang, PhD, is a professor and director of the Division of Experimental Radiation Oncology in the Department of Radiation Oncology, School of Medicine, Emory University, Atlanta, USA.

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