Abstract

Dofetilide (DOF), a novel Class III antiarrhythmic drug, prolongs the action potential duration (APD) and shows a positive inotropic effect in guinea pig papillary muscle. The present experiments were designed to study the positive inotropic effect of DOF on rat ventricle and explore its possible mechanism(s). Hearts from male Wistar rats (260-320 g) were divided into five groups and perfused in Langendorff mode. Ventricular myocytes were enzymatically isolated from male Wistar rats. Whole-cell voltage-clamping technique was used to test the Na(+)-Ca(2+) exchange (NCE) current (I(NCX)); Calcium transients and cell shortening provoked by field stimulation or using calcium current command waveform were observed synchronously with an ionic imaging system. DOF (0.03-1.0 microM) increased left ventricular function in isolated rat hearts in a concentration-dependent manner. DOF (0.03-1.0 microM) also concentration-dependently increased both inward and outward I (NCX) in isolated rat ventricular cells. The EC(50) values of DOF were 0.149 microM for the inward I(NCX) and 0.249 microM for outward I(NCX), respectively. DOF 0.2 microM significantly enhanced Ca(2+) transient and cell shortening in single rat ventricular myocytes driven by field electric stimulation. When the patch clamp system was connected to the ionic imaging system, Ca(2+) current (I(Ca)), Ca(2+) transient and cell shortening amplitude in a same cell were recorded synchronously. Application of DOF 0.2 microM had no effect on I(Ca), but significantly increased Ca(2+) transient and cell shortening. NCX inhibitor KB-R7943 0.6 microM significantly depressed the effects of DOF on Ca(2+) transient and cell shortening. We conclude that DOF enhanced contractility of rat ventricular myocytes. The enhancement of NCE may be involved in the positive inotropic action of DOF.

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