Campbell T J
Br J Pharmacol. 1983 Sep;80(1):33-40. doi: 10.1111/j.1476-5381.1983.tb11046.x.
The effects of Class I antiarrhythmic drugs on the maximum rate of depolarization (Vmax) of guinea-pig ventricular action potentials were studied by standard microelectrode techniques. The ability of seven different drugs to depress Vmax in unstimulated tissue ('resting block') was found to correlate poorly with the lipophilicity (log P) of the compounds and only a little better with their molecular weights. Depression of Vmax in stimulated tissue was studied for 11 drugs and found, in all cases, to increase with stimulation frequency ('rate-dependent block'). The rapidity of onset of rate-dependent block (at approximately equipotent concentrations) varied markedly between drugs. It correlated well with molecular weight (r = 0.83; P less than 0.01). The time constant of recovery from rate-dependent block (tau re) also correlated very well with molecular weight (r = 0.94; P less than 0.001) for the seven drugs thus studied. A simplified model for the interaction of Class I drugs with the fast sodium channel is proposed in which the drugs all act as 'inactivation enhancers' (as suggested by other workers) but in which their molecular weight plays a central role in determining the kinetics of this interaction.
采用标准微电极技术研究了Ⅰ类抗心律失常药物对豚鼠心室动作电位最大去极化速率(Vmax)的影响。发现七种不同药物在未受刺激组织中抑制Vmax的能力(“静息阻滞”)与化合物的亲脂性(log P)相关性较差,与分子量的相关性略好一些。研究了11种药物在受刺激组织中对Vmax的抑制作用,发现在所有情况下,其均随刺激频率增加(“频率依赖性阻滞”)。药物之间,频率依赖性阻滞的起效速度(在大致等效浓度下)差异显著。它与分子量密切相关(r = 0.83;P<0.01)。对于所研究的七种药物,从频率依赖性阻滞恢复的时间常数(tau re)也与分子量密切相关(r = 0.94;P<0.001)。提出了一个Ⅰ类药物与快速钠通道相互作用的简化模型,其中所有药物均作为“失活增强剂”起作用(如其他研究者所建议),但其分子量在决定这种相互作用的动力学方面起着核心作用。