成年犬心室肌细胞中的起搏电流i(f)
Pacemaker current i(f) in adult canine cardiac ventricular myocytes.
作者信息
Yu H, Chang F, Cohen I S
机构信息
Department of Physiology and Biophysics, State University of New York, Stony Brook 11794-8661, USA.
出版信息
J Physiol. 1995 Jun 1;485 ( Pt 2)(Pt 2):469-83. doi: 10.1113/jphysiol.1995.sp020743.
Abstract
- Single cells enzymatically isolated from canine ventricle and canine Purkinje fibres were studied with the whole-cell patch clamp technique, and the properties of the pacemaker current i(f) compared. 2. Steady-state i(f) activation occurred in canine ventricular myocytes at more negative potentials (-120 to -170 mV) than in canine Purkinje cells (-80 to -130 mV). 3. Reversal potentials were obtained in various extracellular Na+ (140, 79 or 37 mM) and K+ concentrations (25, 9 or 5.4 mM) to determine the ionic selectivity of i(f) in the ventricle. The results suggest that this current was carried by both sodium and potassium ions. 4. The plots of the time constants of i(f) activation against voltage were 'bell shaped' in both canine ventricular and Purkinje myocytes. The curve for the ventricular myocytes was shifted about 30 mV in the negative direction. In both ventricular and Purkinje myocytes, the fully activated I-V relationship exhibited outward rectification in 5.4 mM extracellular K+. 5. Calyculin A (0.5 microM) increased i(f) by shifting its activation to more positive potentials in ventricular myocytes. Protein kinase inhibition by H-7 (200 microM) or H-8 (100 microM) reversed the positive voltage shift of i(f) activation. This effect of calyculin A also occurred when the permeabilized patch was used for whole-cell recording. 6. These results indicate i(f) is present in ventricular myocytes. If shifted to more positive potentials i(f) could play a role in ischaemia-induced ventricular arrhythmias. The negative shift of i(f) in the ventricle might play a role in differentiating non-pacing regions of the heart from those regions that pace.
摘要
采用全细胞膜片钳技术研究了从犬心室和犬浦肯野纤维酶解分离的单细胞,并比较了起搏电流i(f)的特性。
犬心室肌细胞中稳态i(f)激活发生在比犬浦肯野细胞更负的电位(-120至-170 mV),而犬浦肯野细胞中为-80至-130 mV。
在不同的细胞外Na+(140、79或37 mM)和K+浓度(25、9或5.4 mM)下获得反转电位,以确定心室中i(f)的离子选择性。结果表明,该电流由钠离子和钾离子共同携带。
在犬心室和浦肯野肌细胞中,i(f)激活时间常数与电压的关系曲线均呈“钟形”。心室肌细胞的曲线向负方向偏移约30 mV。在心室和浦肯野肌细胞中,在5.4 mM细胞外K+中,完全激活的I-V关系均表现出外向整流。
毛喉素A(0.5 microM)通过将心室肌细胞中i(f)的激活电位向更正方向移动来增加i(f)。H-7(200 microM)或H-8(100 microM)抑制蛋白激酶可逆转i(f)激活的正向电压偏移。当使用通透膜片进行全细胞记录时,毛喉素A也会产生这种效应。
这些结果表明i(f)存在于心室肌细胞中。如果i(f)向更正电位移动,它可能在缺血诱导的室性心律失常中起作用。心室中i(f)的负向偏移可能在区分心脏的非起搏区域和起搏区域方面起作用。
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