兔心脏浦肯野细胞中的复极化钾电流。
Repolarizing K+ currents in rabbit heart Purkinje cells.
作者信息
Cordeiro J M, Spitzer K W, Giles W R
机构信息
Department of Physiology and Biophysics, University of Calgary School of Medicine, Calgary, Alberta, Canada.
出版信息
J Physiol. 1998 May 1;508 ( Pt 3)(Pt 3):811-23. doi: 10.1111/j.1469-7793.1998.811bp.x.
Abstract
- Electrophysiological experiments on single myocytes obtained from Purkinje fibres and ventricular tissue of adult rabbit hearts were done to compare the contributions of three potassium (K+) currents to the action potentials in these two tissues. 2. In Purkinje cells reductions in extracellular potassium, [K+]o, from normal (5.4 mM) to 2.0 mM resulted in a large hyperpolarization and marked lengthening of the action potential. In ventricular myocytes, these changes were much less pronounced. Voltage clamp measurements demonstrated that these differences were mainly due to a much smaller inward rectifier K+ current, IK1, in Purkinje cells than in ventricular myocytes. 3. Application of 4-aminopyridine (4-AP, 2 mM) showed that all Purkinje cells exhibited a very substantial Ca2+-independent transient K+ outward current, It. 4-AP significantly broadened the early, rapid repolarization phase of the action potential. 4. Selective inhibitors of the fast component, IK, r (MK-499, 200 nM) and the slow component IK,s (L-735821 (propenamide), 20 nM) of the delayed rectifier K+ currents both significantly lengthened the action potential, suggesting that these conductances are present, but very small (< 20 pA) in Purkinje cells. Attempts to identify time- and voltage-dependent delayed rectifier K+ current(s) in Purkinje cells failed, although a slow delayed rectifier was observed in ventricular myocytes. 5. These results demonstrate significant differences in action potential waveform, and underlying K+ currents in rabbit Purkinje and ventricular myocytes. Purkinje cells express a much smaller IK1, and a larger It than ventricular myocytes. These differences in current densities can explain some of the most important electrophysiological properties of these two tissues.
摘要
- 对成年兔心脏浦肯野纤维和心室组织获取的单个心肌细胞进行电生理实验,以比较三种钾离子(K⁺)电流对这两种组织动作电位的贡献。2. 在浦肯野细胞中,细胞外钾离子浓度[K⁺]o从正常的(5.4 mM)降至2.0 mM,导致动作电位大幅超极化并显著延长。在心室肌细胞中,这些变化则不太明显。电压钳测量表明,这些差异主要是由于浦肯野细胞中的内向整流K⁺电流IK1比心室肌细胞中的小得多。3. 应用4 - 氨基吡啶(4 - AP,2 mM)表明,所有浦肯野细胞均表现出非常显著的非钙依赖性瞬时K⁺外向电流It。4 - AP显著拓宽了动作电位的早期快速复极化阶段。4. 延迟整流K⁺电流的快速成分IK,r(MK - 499,200 nM)和慢速成分IK,s(L - 735821(丙烯酰胺),20 nM)的选择性抑制剂均显著延长了动作电位,表明这些电导存在,但在浦肯野细胞中非常小(<20 pA)。尽管在心室肌细胞中观察到了慢速延迟整流,但试图在浦肯野细胞中识别时间和电压依赖性延迟整流K⁺电流的尝试失败了。5. 这些结果表明兔浦肯野细胞和心室肌细胞在动作电位波形及潜在的K⁺电流方面存在显著差异。浦肯野细胞表达的IK1比心室肌细胞小得多,而It比心室肌细胞大。电流密度的这些差异可以解释这两种组织一些最重要的电生理特性。
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