Electrophysiological effects of Ro 22-9194, a new antiarrhythmic agent, on guinea-pig ventricular cells.

1. Cardiac effects of Ro 22-9194 were examined in papillary muscles and single ventricular myocytes isolated from guinea-pigs and compared with those of moricizine. 2. In papillary muscles, both Ro 22-9194 (> or = 10 microM) and moricizine (> or = 1 microM) caused a significant dose-dependent decrease in the maximum upstroke velocity (Vmax) and a shortening of the action potential duration. 3. In the presence of either drug, trains of stimuli at rates > or = 0.2 Hz led to an exponential decline in Vmax. This use-dependent block was enhanced at higher stimulation frequencies. A time constant (tau R) for Vmax recovery from the use-dependent block was 9.3 s for Ro 22-9194 and 26.4 s for moricizine. 4. The curves relating membrane potential and Vmax in single myocytes were shifted by Ro 22-9194 (30 microM) or by moricizine (3 microM) in a hyperpolarizing direction by 8.4 mV and 8.0 mV respectively. 5. In myocytes treated with Ro 22-9194 (30 microM), a 10 ms conditioning clamp to 0 mV caused a significant decrease in Vmax of the subsequent test action potential; further prolongation of the clamp pulse duration resulted in a modest enhancement of the Vmax inhibition. In the presence of moricizine (3 microM), a similar conditioning clamp > 200 ms caused a significant Vmax reduction; the longer the clamp pulse duration, the greater the Vmax reduction. 6. Ro 22-9194 > or = 30 microM caused a slight decrease of calcium inward current (ICa) of myocytes without affecting the delayed rectifier potassium current (IK). 7. These findings suggest that the primary electrophysiological effect of Ro 22-9194 as an antiarrhythmicagent is, like moricizine, a use- and voltage-dependent inhibition of sodium channels. From the onset and offset kinetics of the use-dependent block, Ro 22-9194 belongs to the intermediate kinetic Class I drugs, while moricizine is a slow kinetic drug. From the state-dependence of sodium channel block, Ro 22-9194 may belong to activated channel blockers, while moricizine belongs to inactivated channel blockers.