COMPARATIVE ANALYSIS OF THE INHIBITORY EFFECTS OF THE HYPOMAGNETIC FIELD AND COMBINED MAGNETIC FIELDS ON THE PRODUCTION OF REACTIVE OXYGEN SPECIES (ROS) BY NEUTROFILS

Russian Journal of Biological Physics and Chemisrty Pub Date : 2024-05-21 DOI:10.29039/rusjbpc.2023.0601

V. Novikov, E. Yablokova, I. Shaev, N. Novikova, E. Fesenko

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Abstract

The article reveals that a decrease in the background production of reactive oxygen species (ROS) in the peritoneal neutrophils of mice after a short-term (40 minutes) stay in hypomagnetic conditions (residual field  10 nT) at physiological temperatures, detected by the method of lucigenin-dependent chemiluminescence, is not accompanied by a violation of chemiluminescent response to respiratory burst activators: formylated peptide N-formyl-Met-Leu-Phe (fMLF) and phorbol ester of phorbol-12-meristat-13-acetate (PMA). These results were obtained by activated chemiluminescence using lucigenin or luminol and various combinations of ROS production activators (PMA and/or fMLF). In contrast, the action of combined parallel constant (induction 60 μT) and alternating (amplitude range 60-180 nT, frequency 49.5 Hz) magnetic fields (CMF) leads to a decrease in the chemiluminescent response to these activators. These data indicate different sources of ROS that respond to certain modes of CMF and hypomagnetic field in neutrophils. The conducted research and the previously obtained results enable to exclude the systems that control the respiratory burst in neutrophils from the main targets and acceptors that respond to short-term deprivation of the magnetic field.

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低磁场和组合磁场对中性粒细胞产生活性氧（ROS）的抑制作用的比较分析

文章揭示了在生理温度下，小鼠腹膜中性粒细胞在低磁条件（残余磁场  10 nT）下短期（40 分钟）停留后，其活性氧（ROS）的本底生成减少，这种减少是通过荧光素依赖性化学发光方法检测到的，但并不伴随着对呼吸爆发激活剂的化学发光反应的改变：甲酰化肽 N-甲酰-Met-Leu-Phe（fMLF）和光稳定剂-12-巯基-13-乙酸酯（PMA）。这些结果是通过使用荧光素或发光酚以及 ROS 生成激活剂（PMA 和/或 fMLF）的不同组合激活化学发光获得的。相反，联合平行恒定磁场（感应 60 μT）和交变磁场（振幅范围 60-180 nT，频率 49.5 Hz）（CMF）的作用会导致对这些激活剂的化学发光反应降低。这些数据表明，中性粒细胞对某些模式的 CMF 和低磁场产生反应的 ROS 来源不同。通过所进行的研究和之前获得的结果，可以将控制中性粒细胞呼吸爆发的系统排除在对短期磁场剥夺做出反应的主要目标和接受者之外。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Russian Journal of Biological Physics and Chemisrty

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