心脏浦肯野纤维：细胞内钙离子浓度（[Ca2+]i）控制稳态钾电导。

Cardiac Purkinje fibres: [Ca2+]i controls steady state potassium conductance.

作者信息

Isenberg G

出版信息

Pflugers Arch. 1977 Oct 19;371(1-2):71-6. doi: 10.1007/BF00580774.

Abstract

The influence of intracellular calcium concentration [Ca2+]i on the steady state membrane currents i infinity was studied in a range of clamp potentials between -20 and -100 mV. Injection of CaCl2 or Ca-EGTA (pCa less than or equal to 6) increased i infinity whereas injection of K-EGTA diminished it. The changes delta i infinity were attributed to a change in steady state potassium conductance, gK infinity, by four arguments: delta i infinity was restricted to potentials negative to -20 mV and depended on clamp potential in an inward rectifying manner. delta i infinity displayed a reversal potential, Erev' which followed log [K+]o with 60 mV for a tenfold change. Since Erev obtained during Ca injection agreed with Erev observed during EGTA injection the potassium driving force had to be constant. When gK was blocked by superfusion with 20 mM Cesium neither CaCl2 nor K-EGTA injection modified i infinity.

摘要

在 -20 至 -100 mV 的一系列钳制电位范围内，研究了细胞内钙浓度 [Ca2+]i 对稳态膜电流 i∞ 的影响。注射 CaCl2 或 Ca-EGTA（pCa 小于或等于 6）会增加 i∞，而注射 K-EGTA 则会使其降低。通过四个论据，变化量 Δi∞ 被归因于稳态钾电导 gK∞ 的变化：Δi∞ 局限于负于 -20 mV 的电位，并且以内向整流的方式依赖于钳制电位。Δi∞ 显示出一个反转电位 Erev，其随 [K+]o 的对数变化，每十倍变化为 60 mV。由于在注射 Ca 期间获得的 Erev 与在注射 EGTA 期间观察到的 Erev 一致，钾驱动力必须是恒定的。当用 20 mM 铯进行灌流阻断 gK 时，注射 CaCl2 或 K-EGTA 均不会改变 i∞。

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Cardiac Purkinje fibres: [Ca2+]i controls steady state potassium conductance.心脏浦肯野纤维：细胞内钙离子浓度（[Ca2+]i）控制稳态钾电导。

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Cardiac Purkinje fibres: [Ca2+]i controls the potassium permeability via the conductance components gK1 and gK2.心脏浦肯野纤维：细胞内钙离子浓度([Ca2+]i)通过电导成分gK1和gK2控制钾离子通透性。

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心脏浦肯野纤维：细胞内钙离子浓度（[Ca2+]i）控制稳态钾电导。

Cardiac Purkinje fibres: [Ca2+]i controls steady state potassium conductance.

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