An RF Safe article argues that plasma membrane potential (Vm) is a key control variable for immune cell behavior by shaping ion driving forces, especially Ca2+ influx through CRAC channels and K+ channel–mediated hyperpolarization. It describes proposed links between Vm-regulated ion flux and downstream immune functions such as T-cell activation (NFAT/NF-κB signaling), macrophage polarization, respiratory burst capacity, and NLRP3 inflammasome activation. The piece also mentions that external electric fields can influence T-cell migration and activation markers under some conditions, but it does not present new experimental data in the excerpt provided.

This narrative review proposes that low-intensity microwave/lower-frequency EMFs activate plasma membrane calcium channels in animals, increasing intracellular calcium and triggering downstream signaling including oxidative stress pathways. It further suggests that EMF actions in terrestrial multicellular plants are probably similar, with plant two-pore channels proposed as plausible mediators due to a comparable voltage sensor. The abstract describes briefly reviewed plant studies as consistent with this mechanism, but does not provide detailed exposure parameters or quantitative results.