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International Journal of Radiation Biology Volume 93, 2017 - Issue 2
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Original Articles

Effects of radiofrequency field exposure on glutamate-induced oxidative stress in mouse hippocampal HT22 cells

Jeong-Yub KimKorea Institute of Radiological and Medical Sciences, Seoul, Korea; ;Department of Pathology, College of Medicine, Korea University, Seoul, Korea;
,
Hee-Jin KimKorea Institute of Radiological and Medical Sciences, Seoul, Korea;
,
Nam KimSchool of Information and Communication Engineering, Chungbuk National University, Cheongju, Korea;
,
Jong Hwa KwonDepartment of Radio Technology Research, Electronics and Telecommunications Research Institute, Daejeon, Korea
&
Myung-Jin ParkKorea Institute of Radiological and Medical Sciences, Seoul, Korea; Correspondence[email protected]
Pages 249-256 | Received 08 Mar 2016, Accepted 09 Sep 2016, Published online: 25 Oct 2016
 
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Abstract

Purpose: To define the impact of radiofrequency (RF) under in vitro experimental Alzheimer’s disease conditions, we investigated the effect of RF radiation on glutamate-induced oxidative stress in mouse hippocampal neuronal HT22 cells.

Materials and methods: Cell survival rate was measured by MTT and trypan blue exclusion assays. Cell cycle distribution, cell death, and ROS production were analyzed using flow cytometry. Expression of proteins was analyzed by Western blot.

Results: RF exposure alone had a marginal impact on cell proliferation; however, it significantly enhanced glutamate-induced cytotoxicity in HT22 cells. Glutamate augmented the subG1 fraction of cell cycle, annexin/propidium iodide positive cell population, and expression of cleaved poly (ADP ribose) polymerase, which were further increased by RF exposure. Glutamate induced reactive oxygen species (ROS) generation and RF exposure further upregulated it. N-acetylcysteine (NAC) treatment completely abrogated glutamate- and RF-induced ROS production followed by cell death and restored cell proliferation in HT22 cells. Finally, glutamate phosphorylated c-Jun N-terminal kinase (JNK) and RF increased this event further. Treatment with NAC and inhibitor of JNK decreased JNK phosphorylation and restored cell proliferation, respectively.

Conclusions: Our results demonstrate that RF exposure enhanced glutamate-induced cytotoxicity by further increase of ROS production in HT22 cells.

Disclosure statement

The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.

Funding

This work was supported by the IT R&D program of MSIP/IITP [B0138-15-1002, Study on the EMF exposure control in smart society] and National R&D Program through the Korea Institute of Radiological and Medical Sciences funded by the Ministry of Science, ICT & Future Planning (No. 1711021925).

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