Abstract
Tumor cells express a unique cell surface glycocalyx with upregulation of sulfated glycosaminoglycans and charged glycoproteins. Little is known about how electromagnetic fields interact with this layer, particularly with regard to harnessing unique properties for therapeutic benefit. We applied a pulsed 20-millitesla (mT) magnetic field with rate of rise (dB/dt) in the msec range to cultured tumor cells to assess whether this affects membrane integrity as measured using cytolytic assays. A 10-min exposure of A549 human lung cancer cells to sequential 50- and 385-Hz oscillating magnetic fields was sufficient to induce intracellular protease release, suggesting altered membrane integrity after the field exposure. Heparinase treatment, which digests anionic sulfated glycan polymers, before exposure rendered cells insensitive to this effect. We further examined a non-neoplastic human primary cell line (lung lymphatic endothelial cells) as a typical normal host cell from the lung cancer microenvironment and found no effect of field exposure on membrane integrity. The field exposure was also sufficient to alter proliferation of tumor cells in culture, but not that of normal lymphatic cells. Pulsed magnetic field exposure of human breast cancer cells that express a sialic-acid rich glycocalyx also induced protease release, and this was partially abrogated by sialidase pretreatment, which removes cell surface anionic sialic acid. Scanning electron microscopy showed that field exposure may induce unique membrane “rippling” along with nanoscale pores on A549 cells. These effects were caused by a short exposure to pulsed 20-mT magnetic fields, and future work may examine greater magnitude effects. The proof of concept herein points to a mechanistic basis for possible applications of pulsed magnetic fields in novel anticancer strategies.
Highlights
A small body of research shows that magnetic field exposures may modulate tumor cell behavior in vivo [1,2,3,4]
Exposure of A549 monolayer cells to pulsed magnetic fields was sufficient to alter membrane integrity, and sulfated glycans play an important role in mediating this effect
To measure membrane integrity alterations induced by the pulsed magnetic fields, magnet-exposed and control A549 cells were measured immediately after exposure by assaying for membrane leak using an intracellular protease leak detection assay
Summary
A small body of research shows that magnetic field exposures may modulate tumor cell behavior in vivo [1,2,3,4]. Some studies demonstrated effects using frequencies as low as 1–2 Hz [7,8,11], with the biological effects depending more on a sufficiently narrow pulse width (
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