水杨酸盐离子对绵羊心脏浦肯野纤维电特性的作用。
Action of salicylate ions on the electrical properties of sheep cardiac Purkinje fibres.
作者信息
Cohen I, Noble D, Ohba M, Ojeda C
出版信息
J Physiol. 1979 Dec;297(0):163-85. doi: 10.1113/jphysiol.1979.sp013033.
Abstract
- In sheep Purkinje fibre preparations, salicylate ions produce reversible changes in resting potential and in action potential duration. In most preparations these effects resemble those produced by -ow extracellular K concentration: the resting potential first increases and then decreases, the action potential is prolonged and eventually, low potential oscillations occur in the plateau range. In a few preparations, action potential shortening occurs. 2. The threshold current for initiating action potentials by an intracellular electrode is reversibly increased by salicylate. 3. The activation curve, soo(Em), for the pace-maker K current, iK2, shifted in a hyperpolarizing direction. The magnitude of the shift is about -5 mV in 5 mM-salicylate and -30 mV in 50 mM-salicylate. 4. The apparent reversal potential for iK2 is shifted in a negative direction. The magnitude of this shift at a given salicylate concent;ation varies with the K concentration. In an extracellular K concentration of 2.7 mM an average shift of -18 mV occurs in 10 mM-salicylate; in 8 mM, the average shift is only -1 mV. 5. It is proposed that most of these effects may be produced by an increase in surface negative potential produced by the binding of salicylate to the cell membrane. This would produce the hyperpolarizing shift of activation curves for ionic current and, by increasing surface K activity, may lead to stimulation of the Na-K pump to produce an increase in the K gradient across the cell membrane.
摘要
- 在绵羊浦肯野纤维制剂中,水杨酸离子会使静息电位和动作电位持续时间产生可逆变化。在大多数制剂中,这些效应类似于细胞外钾浓度降低所产生的效应:静息电位先升高后降低,动作电位延长,最终在平台期范围内出现低电位振荡。在少数制剂中,会出现动作电位缩短的情况。2. 细胞内电极引发动作电位的阈电流会被水杨酸可逆性增加。3. 起搏钾电流iK2的激活曲线soo(Em)向超极化方向移动。在5 mM水杨酸中,移动幅度约为 -5 mV;在50 mM水杨酸中,移动幅度约为 -30 mV。4. iK2的表观反转电位向负方向移动。在给定的水杨酸浓度下,这种移动幅度随钾浓度而变化。在细胞外钾浓度为2.7 mM时,10 mM水杨酸中的平均移动幅度为 -18 mV;在8 mM钾浓度下,平均移动幅度仅为 -1 mV。5. 有人提出,这些效应大多可能是由于水杨酸与细胞膜结合产生的表面负电位增加所致。这将导致离子电流激活曲线的超极化移动,并通过增加表面钾活性,可能刺激钠钾泵,使细胞膜两侧的钾梯度增加。
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