Suppression of time-dependent outward current in guinea pig ventricular myocytes. Actions of quinidine and amiodarone - PubMed (original) (raw)
Comparative Study
Suppression of time-dependent outward current in guinea pig ventricular myocytes. Actions of quinidine and amiodarone
J R Balser et al. Circ Res. 1991 Aug.
Abstract
Prolongation of cardiac action potentials may mediate some of the arrhythmia-suppressing and arrhythmia-aggravating actions of antiarrhythmic agents. In this study, suppression of time-dependent outward current by quinidine and amiodarone was assessed in guinea pig ventricular myocytes. The net time-dependent outward current contained at least two components: a slowly activating, La(3+)-resistant delayed rectifier current (IK) and a rapidly activating, La(3+)-sensitive current. Quinidine block of total time-dependent outward current during clamp steps to positive potentials was relieved as a function of time, whereas that induced by amiodarone was enhanced. In contrast, at negative potentials, suppression of current, whereas amiodarone reduced IK but not the La(3+)-sensitive current, suggesting that differential block of the two components of time-dependent current underlies the distinct effects of the two agents. In contrast to these disparate effects on total time-dependent outward current, steady-state reduction of IK by both drugs increased at positive voltages and saturated at approximately +40 mV; the voltage dependence of block by quinidine (17% per decade, +10 to +30 mV) was steeper than that by amiodarone (5% per decade, +10 to +20 mV). Block by quinidine was time dependent at negative potentials: on stepping from +50 to -30 mV, block initially increased very rapidly, and subsequent deactivation of IK was slowed. This effect was not seen with amiodarone. At -80 mV, quinidine block was relieved with a time constant of 40 +/- 15 msec (n = 4, twin-pulse protocol). The effects of quinidine on IK were compatible with neither a purely voltage-dependent model of quinidine binding nor a model incorporating both voltage- and state-dependent binding of quinidine to delayed rectifier channels having only one open state. The voltage- and time-dependent features of quinidine block were well described by a model in which quinidine has greater affinity for one of two open states of the channel. We conclude that the effects of quinidine and amiodarone on time-dependent outward current reflects block of multiple channels. Quinidine block of IK was far more voltage dependent than that produced by amiodarone, suggesting the drugs act by different mechanisms.
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