Effects of Nonthermal Radiofrequency Stimulation on Neuronal Activity and Neural Circuit in Mice

Yanhui Hao; Weiqi Liu; Yujie Liu; Ying Liu; Zhengtao Xu; Yumeng Ye; Hongmei Zhou; Hua Deng; Hongyan Zuo; Hong Yang; Yang Li

doi:10.1002/advs.202205988

Advanced Science (Apr 2023)

Effects of Nonthermal Radiofrequency Stimulation on Neuronal Activity and Neural Circuit in Mice

Yanhui Hao,
Weiqi Liu,
Yujie Liu,
Ying Liu,
Zhengtao Xu,
Yumeng Ye,
Hongmei Zhou,
Hua Deng,
Hongyan Zuo,
Hong Yang,
Yang Li

Affiliations

Yanhui Hao: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Weiqi Liu: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Yujie Liu: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Ying Liu: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Zhengtao Xu: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Yumeng Ye: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Hongmei Zhou: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Hua Deng: Life Science Department Foshan University Foshan 528231 China
Hongyan Zuo: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China
Hong Yang: Life Science Department Foshan University Foshan 528231 China
Yang Li: Department of Experimental Pathology Beijing Institute of Radiation Medicine Beijing 100850 China

DOI: https://doi.org/10.1002/advs.202205988
Journal volume & issue: Vol. 10, no. 11
pp. n/a – n/a

Abstract

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Abstract Whether the nonthermal effects of radiofrequency radiation (RFR) exist and how nonthermal RFR acts on the nervous system are unknown. An animal model of spatial memory impairment is established by exposing mice to 2856‐MHz RFR in the range of thermal noise (≤1 °C). Glutamate release in the dorsal hippocampus (dHPC) CA1 region is not significantly changed after radiofrequency exposure, whereas dopamine release is reduced. Importantly, RFR enhances glutamatergic CA1 pyramidal neuron calcium activity by nonthermal mechanisms, which recover to the basal level with RFR termination. Furthermore, suppressed dHPC dopamine release induced by radiofrequency exposure is due to decreased density of dopaminergic projections from the locus coeruleus to dHPC, and artificial activation of dopamine axon terminals or D1 receptors in dHPC CA1 improve memory damage in mice exposed to RFR. These findings indicate that nonthermal radiofrequency stimulation modulates ongoing neuronal activity and affects nervous system function at the neural circuit level.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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