Noise magnetic fields abolish the gap junction intercellular communication suppression induced by 50 hz magnetic fields

Previously, we have reported that exposure to 50 Hz coherent sinusoidal magnetic fields (MF) for 24 h inhibits gap junction intercellular communication (GJIC) in mammalian cells at an intensity of 0.4 mT and enhances the inhibition effect of 12‐ O‐ tetradecanoylphorbol‐13‐acetate (TPA) at 0.2 mT. In the present study, we further explored the effects of incoherent noise MF on MF‐induced GJIC inhibition. GJIC was determined by fluorescence recovery after photobleaching (FRAP) with a laser‐scanning confocal microscope. The rate of fluorescence recovery ( R ) at 10 min after photobleaching was adopted as the functional index of GJIC. The R ‐value of NIH3T3 cells exposed to 50 Hz sinusoidal MF at 0.4 mT for 24 h was 30.85 ± 14.70%, while the cells in sham exposure group had an R ‐value of 46.36 ± 20.68%, demonstrating that the GJIC of NIH3T3 cells was significantly inhibited by MF exposure ( P  < .05). However, there were no significant differences in the R ‐values of the sham exposure, MF‐plus‐noise MF exposure ( R : 49.58 ± 19.38%), and noise MF exposure groups ( R : 46.74 ± 21.14%) ( P  > .05), indicating that the superposition of a noise MF alleviated the suppression of GJIC induced by the 50 Hz MF. In addition, although MF at an intensity of 0.2 mT synergistically enhanced TPA‐induced GJIC inhibition ( R : 24.90 ± 13.50% vs. 35.82 ± 17.18%, P  < .05), further imposition of a noise MF abolished the synergistic effect of coherent MF ( R : 32.51 ± 18.37%). Overall, the present data clearly showed that although noise MF itself had no effect on GJIC of NIH3T3 cells, its superposition onto a coherent sinusoidal MF at the same intensity abolished MF‐induced GJIC suppression. This is the first report showing that noise MF neutralizes 50 Hz MF‐induced biological effect by using a signaling component as the test endpoint. Bioelectromagnetics 27:274–279, 2006. © 2006 Wiley‐Liss, Inc.