Palade P T, Almers W
Pflugers Arch. 1985 Sep;405(2):91-101. doi: 10.1007/BF00584528.
Slow Ca and K currents across frog skeletal muscle membrane were recorded with the Vaseline gap voltage clamp in order to investigate block by divalent cations and various organic compounds. Cd2+, Ni2+, Co2+, Mn2+, Mg2+ all block Ca currents, as do barbiturates, D-600 and nifedipine. Local anesthetics also block Ca currents, with the impermeant quaternary lidocaine derivative, OX-314, being more than an order of magnitude less potent than its permeant parent compound. Surprisingly, all agents that blocked Ca currents also blocked the slow K currents. To explain this pharmacologic parallel, one could suggest that K current is activated by Ca2+ appearing in the myoplasm due to the combination of Ca current and release from internal stores. While possibly correct for intact fibres, this hypothesis appears not to apply in our case where the myoplasm contained the Ca chelator EGTA at high concentration. Instead, K currents seem to be activated by a decrease in external [Ca2+]. In the transverse tubules, Ca current is known to cause [Ca2+] to decline to submicromolar concentrations, and evidence is presented that K currents are activated by Ca depletion from a restricted extracellular space. It is suggested that K currents flow through Ca channels that have become capable of passing monovalent cations after the tubules have become depleted of Ca2+.
为了研究二价阳离子和各种有机化合物的阻断作用,采用凡士林间隙电压钳记录了蛙骨骼肌膜上的慢钙电流和钾电流。Cd2+、Ni2+、Co2+、Mn2+、Mg2+均能阻断钙电流,巴比妥类、D - 600和硝苯地平也能阻断钙电流。局部麻醉药也能阻断钙电流,不能通透的季铵利多卡因衍生物OX - 314的效力比其可通透的母体化合物低一个多数量级。令人惊讶的是,所有阻断钙电流的药物也能阻断慢钾电流。为了解释这种药理学上的平行现象,有人可能会提出,由于钙电流和细胞内钙库释放的钙相结合,导致肌浆中出现Ca2+,从而激活钾电流。虽然这一假设对于完整的纤维可能是正确的,但在我们的实验中,肌浆中含有高浓度的钙螯合剂EGTA时,这一假设似乎并不适用。相反,钾电流似乎是由细胞外[Ca2+]的降低所激活的。在横管中,已知钙电流会导致[Ca2+]降至亚微摩尔浓度,并且有证据表明,钾电流是由有限细胞外空间中的钙耗竭所激活的。有人提出,在横管中的Ca2+耗尽后,钾电流通过已经能够通过单价阳离子的钙通道流动。
