Electromagnetic fields with 217 Hz and 0.2 mT as hazardous factors for tubulin structure and assembly (in vitro study)

Abstract

Nowadays exposure to extremely low frequency electromagnetic fields (ELF-EMFs) is an unavoidable fact in human societies. In spite of destructive effects of ELF-EMF such as impression on short-term memory and cognitive performances, neuroprotective and neurogeneration effects of ELF-EMF have been reported. On the other hand, microtubule (MT) proteins, the dynamic cytoskeleton proteins that are mostly located in axons, are able to produce local EMFs and possess key role in memory formation and consciousness. Therefore, MTs have strong potential to be affected by exogenous ELF-EMFs. In the present study, decline of MT polymerization was shown by transmission electron microscopy images and turbidimetry method after exposure to ELF-EMFs with 50, 100, and 217 Hz frequencies at 0.2 mT intensity. Circular dichroism and 8-anilino-1-naphthalenesulfonate (ANS) fluorometry were used to demonstrate the MT secondary and third structural changes. Decrement of MT polymerization through disruption of tubulin native structure, and increasing the β-sheets and random coils were observed in all exposure conditions. Therefore, ELF-EMFs with 50, 100, and specially 217 Hz frequencies at 0.2 mT could lead to disruption of MT functions in the neural cells.