Electrophysiologic Effects of Ambasilide (LU 47110), a Novel Class III Antiarrhythmic Agent, on the Properties of Isolated Rabbit and Canine Cardiac Muscle

Abstract

Summary Electrophysiologic effects of ambasilide in canine isolated cardiac muscle driven at 1 Hz and in rabbit sinoatrial (SA) node preparations were determined by standard microelectrode technique. Ambasilide (10^-7- 10^-5M) produced concentration-dependent increases in action potential duration measured at - 80 mV (APD _-80) repolarization time in canine ventricular muscle and in Purkinje fibers. APD measured at - 20 mV (APD _-20) was also increased in ventricular muscle, but it shortened with 10^-5M in Purkinje fibers; at this concentration, there was a negligible change in the amplitude and the maximum upstroke velocity (V_max) of action potentials and in the resting membrane potential. With the stimulation frequency between 30/min and 120/min, ambasilide (10^-5M) produced a parallel increase in APD_-80 as well as in APD_-20 of ventricular muscle. In Purkinje fibers, the prolonging effect of ambasilide on APD _-80 was more pronounced at lower stimulation frequency, whereas APD_-20 shortened at all stimulation frequencies. Ambasilide at 10^-5M also produced a prolongation of the effective refractory period (ERP) in Purkinje fibers. The drug produced no significant change in the frequency-dependent relationship between ERP and APD_-80. A small but significant frequency-dependent inhibition of V_max was noted in both ventricular muscle and Purkinje fibers. When the stimulus cycle length was reduced from 1,000 to 300 ms, V_max in ventricular muscle decreased by 8.4 ± 3.4% in control solution but by 22.6 ± 5.6% after 10^-5M ambasilide (n = 8, p < 0.01). Ambasilide (10^-5M) produced a marked increase in APD_-20 measured at −20 and −40 mV in Purkinje fibers, with abnormal automaticity induced by 2 mM barium (n = 7). The spontaneous cycle length of these preparations increased from 931.1 ± 205.3 to 1294.0 ± 274.9 ms (p < 0.01). The drug had no significant effect on the amplitude and V_max of such action potentials or on their maximum diastolic potentials. Ambasilide (10^-7–10^-5M) produced concentration-dependent increases in the cycle length in rabbit sinus node by increasing the APD measured at 80% repolarization time and by elevating the threshold of rapid depolarization but without a significant change in the amplitude, maximum diastolic potential, and the slope of phase 4 depolarization; however, all these parameters tended to decrease at 10^-5M. The data indicate that ambasilide exerts a significant class III antiarrhythmic action with a minor class I effect in conjunction with an unusual aggregate of additional electrophysiologic effects that may lead to beneficial antifibrillatory actions with a reduced propensity for genesis of early afterdepolarizations.