The kinetic properties of wild-type rat brain IIa sodium channels in excised macropatches were studied using step depolarizations and ramp depolarizations to imitate the slow settling-time of voltage in two-electrode voltage clamp. Ramp depolarizations longer than 1 ms produce an increasing suppression of peak sodium current (I[Na]). Two rates of inactivation can be seen in macroscopic sodium current records from excised patches following both step and ramp depolarizations. During slow ramp depolarizations, reduction in peak I[Na] is associated with selective loss of the fastest rate of test-pulse inactivation. This change can be interpreted as resulting from inactivation of a separate sub-population of 'fast mode' channels. The slow rate of test-pulse inactivation is relatively unaffected by changing ramp durations. These results are sufficient to explain the typically slow inactivation kinetics seen in two-electrode voltage clamp recordings of sodium channels in Xenopus oocytes. Thus, the kinetics of sodium channels expressed in Xenopus oocytes are not readily characterizable by two-electrode clamp because of the large membrane capacitance and resulting slow clamp settling time which artifactually selects for slow mode channels.

译文

使用逐步去极化和斜坡去极化来模拟在两电极电压钳中电压的缓慢建立时间,研究了切除的大斑块中野生型大鼠脑IIa钠通道的动力学特性。超过1 ms的斜坡去极化会产生对钠电流峰值(I [Na])的越来越大的抑制。在阶跃和斜波去极化后,从切下的小片的宏观钠电流记录中可以看到两种失活速率。在缓慢的斜坡去极化期间,峰值I [Na]的降低与最快的测试脉冲失活速率的选择性损失有关。可以将这种变化解释为是由于“快速模式”通道的单独子群体未激活而导致的。测试脉冲失活的缓慢速率相对不受斜坡持续时间变化的影响。这些结果足以解释爪蟾卵母细胞中钠通道的两电极电压钳记录中典型的缓慢失活动力学。因此,非洲爪蟾卵母细胞中表达的钠通道的动力学不易通过两电极钳夹来表征,因为膜电容大且钳夹建立时间慢,这是人为地选择慢模式通道的原因。

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