Abstract

1. Class III antiarrhythmic drugs are known to block the outward currents through voltage-gated K+ channels. However, effects of class III antiarrhythmic drugs on the ligand-gated K+ channels have not been thoroughly examined. In this study effects of amiodarone and newer class III antiarrhythmic drugs, E-4031 and MS-551, on the Na+-activated K+ (KNa) current were examined in inside-out membrane patches and in whole cells isolated from guinea-pig ventricle. 2. The KNa channel current was activated by increasing [Na+]i from 0 mM to 30-100 mM with 150 mM [K+]o in inside-out membrane patches of ventricular myocytes. The channel current showed a larger slope conductance (210 pS), inward-going rectification and subconductance levels of various amplitudes. 3. E-4031 and MS-551 at high concentrations (300 microM) inhibited the K+ current by decreasing the open time (flickering block). On the other hand, amiodarone at relatively low concentrations (0.1-10 microM) inhibited the KNa channel current by decreasing the open probability rather than by decreasing the open time. The IC50 value of amiodarone for inhibiting the KNa channel current was 1.0 microM. 4. These drugs also inhibited the whole-cell outward current activated by intracellular loading of 50 mM [Na+]i and extracellular application of 10 microM ouabain. 5. These results indicate that class III antiarrhythmic drugs inhibit the KNa channel current in cardiac cells. However, there are sharp differences in the effective concentrations and the mode of inhibition between amiodarone and the newer class III antiarrhythmic drugs.

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