Cytoskeleton modulates coupling between availability and activation of cardiac sodium channel

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Cytoskeleton modulates coupling between availability and activation of cardiac sodium channel

Victor A. Maltsev and Albertas I. Undrovinas

Division of Cardiovascular Medicine, Henry Ford Heart and Vascular Institute, Detroit, Michigan 48202-2689

The aim of this study was to investigate modulation of voltage-dependent steady-state activation and availability from inactivationof the cardiac Na⁺ channel by the cytoskeleton. As an experimental approach, weused long-lasting monitoring [63 ± 5 (SE) min] of the half-pointpotentials of the steady-state availability curve (V_1/2A)and normalized conductance curve (V_1/2G) in 116 rat ventricularcardiomyocytes by whole cell patch clamp at 22-24°C. Both half-pointpotentials shifted in the negative direction with time as an exponentiallysaturating change, with the shift of V_1/2G being smaller and faster.An F-actin disrupter, cytochalasin D (Cyto-D, 20 µM), acceleratedthe rate of the V_1/2A shift but decreased the range of the V_1/2Gshift. An F-actin stabilizer, phalloidin (100 µM), temporarily(for 28.2 ± 2.2 min, n = 15) prevented the V_1/2A shift but didnot influence the V_1/2G shift. The best fit for the V_1/2G-V_1/2Arelationship in untreated cells (1,021 data points measured in51 cells) was a second-degree (2.06) power function. Cytoskeleton-directedagents modified the relationship. In Cyto-D-treated cells, theV_1/2G-V_1/2A relationship was shifted (by 2.5 mV) toward positiveV_1/2G. On the contrary, a microtubule stabilizer, taxol (100 µM),shifted the relationship toward negative V_1/2G (by 12.2 mV). Weconclude that coupling between availability and activation ismodulated by F-actin-based and microtubular cytoskeleton.

sodium current; patch clamp; cytochalasin D; phalloidin; colchicine; taxol

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