Abstract
Loading of pegylated cholesterol (PEG-cholesterol) by pretreatment of several hours decreases current density and augments voltage-dependent inactivation of L-type Ca channel current (ICa,L) and depletion of cholesterol by similar long pretreatment with methyl-beta-cyclodextrin (MbCD) increases the ICa,L density in A7r5 aortic smooth muscle cells. On the other hand, dehydroepiandrosterone (DHEA), a cholesterol-derived steroid hormone, rapidly induces voltage-dependent inhibition of ICa,L. If endocytosis and exocytosis of CaV1.2-containing membrane vesicles are involved in these modulations, they should induce a change in membrane capacitance (Cm). Cm could be affected also by a change of thickness and dielectric constant of lipid bilayer. Here we studied acute effects of PEG-cholesterol, MbCD and DHEA on Cm of isolated bovine coronary artery smooth muscle cells by whole-cell patch clamp technique. Ramp steps of 5 or 10 ms were applied repetitively before, during and after application of the modulators. Control Cm was 18.3±4.5 pF (mean±SD.). PEG-cholesterol and MbCD induced gradual and small decrease of Cm and their washout decelerated the rate of the decrease. Cm after 10 min of wash-in normalized by the initial value was: control without modulator, 1.01±0.02 (mean±SD.); 1 mM PEG-cholesterol, 0.96±0.02 (p<0.01, compared with control); 10 mM MbCD, 0.90±0.05 (p<0.0001); 0.1 mM DHEA, 1.00±0.03. Since the change of Cm is small, it little affects qualitative conclusion of the modulation of ICa,L density obtained by the pretreatment experiments with PEG-cholesterol and MbCD. The small but significant decrease of Cm reflects structural changes of the lipid bilayer which may be involved in the modulation of ICa,L by PEG-cholesterol and MbCD.
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