The effect of a static magnetic field (MF) of 0.5 mT of intensity on the cell proliferation/cell death balance was investigated in renal cells (VERO) and cortical astrocyte cultures from rats. Magnetic stimulation was delivered by magnetic disks at known intensities. The percentage of apoptotic and necrotic cells was evaluated using flow cytometry and morphological analysis following Hoechst chromatin staining. An index of cell proliferation was determined using sulfonated tetrazolium (WST-1). Control cultures were prepared without exposure to MFs. After 2, 4 and 6 days of exposure to a MF, we observed a gradual decrease in apoptosis and proliferation and a gradual increase in cells with a necrotic morphology with respect to the control group. In astrocyte cultures, over a 6-day exposure period. A gradual increase was observed in apoptotic, proliferating, and necrotic cells. Our findings suggest that the effect of exposure to MFs varies, depending on the cell type; MFs may also have a nephropathogenic effect.
Vasoconstriction in subjects with essential hypertension may therefore depend on a different regulation of ionic flow that probably supports an increased Ca2+ inflow in smooth muscle fibre cells. Under certain pathological conditions, some immune system components (i.e. interleukins, adhesion molecules) may directly enhance membrane permeability to Ca2+, thus inducing vasoconstriction in the smooth muscle cells.
Apoptosis, a form of programmed cell death, mediates the controlled deletion of so-called "unwanted" cells. This review deals with the key features of this cell death program, showing that apoptosis is regulated by factors extrinsic and intrinsic to the dying cell. The elucidation of the possible interactions between these factors may be of major interest in preventing the progression to cardiovascular remodeling in patients with hypertensive disease. New pathways of research are emerging for drugs, such as beta-blockers, ACE inhibitors, the calcium-antagonists, and the receptor antagonist of angiotensin II, all of which have beneficial effects on cardiovascular remodeling. This may be due to the direct effect of these drugs on the cell proliferation/apoptosis balance.
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