电压钳制的小鼠神经母细胞瘤细胞中的钙电流和慢钾电导的激活。
The calcium current and the activation of a slow potassium conductance in voltage-clamped mouse neuroblastoma cells.
作者信息
Moolenaar W H, Spector I
出版信息
J Physiol. 1979 Jul;292:307-23. doi: 10.1113/jphysiol.1979.sp012852.
Abstract
- The Ca2+ inward current (ICa) and a slow outward current in differentiated cells of mouse neuroblastoma clone N1E-115 have been studied under voltage-clamp conditions. 2. ICa shows voltage- and time-dependent inactivation when evoked by step-wise depolarizations in Na+-free solution containing high [Ca2+] (20 nM) and tetraethylammonium (TEA, 25 mM). Ba2+ and Sr2+ can substitute for Ca2+. 3. Holding potentials below -70 mV maximal activate ICa. Half inactivation occurs at -56 mV and ICa is completely inactivated beyond holding levels of -30 mV. Maximum peak currents are of the order of 10(-4) A/cm2 and the reversal potential ranges from +40 to +60 mV. The ICa inactivation time course follows first-order kinetics with a voltage-depedent time constant ranging from 25 to 100 msec. 4. The striking resemblance between ICa and the Ca2+ current in the unfertilized mouse oocyte (Okamoto, Takahashi & Yamashita, 1977) is discussed. 5. A slow outward current with a rise time of several seconds is recorded on voltage steps beyond -20 mV in high [Ca2+] solutions. It is carried primarily by K+ on account of the value of the reversal potential and its dependence on [K]0. This K+ current is TEA-insensitive and is blocked by Ca2+ antagonists. 6. The slow K+ current (IK(Ca)) is suggested to be mediated by Ca2+ influx, but the voltage-dependence of the underlying conductance (GK(Ca)) differs significantly from the ICa voltage-dependence. 7. The results are consistent with the hypothesis that IK(Ca) depends both on ICa and on membrane potential. An alternative hypothesis is briefly discussed.
摘要
- 在电压钳制条件下,对小鼠神经母细胞瘤克隆N1E - 115分化细胞中的Ca2 +内向电流(ICa)和缓慢外向电流进行了研究。2. 在含有高浓度[Ca2 +](20 nM)和四乙铵(TEA,25 mM)的无钠溶液中,通过逐步去极化诱发ICa时,ICa表现出电压和时间依赖性失活。Ba2 +和Sr2 +可以替代Ca2 +。3. 保持电位低于 - 70 mV时可最大程度激活ICa。半失活发生在 - 56 mV,当保持电位超过 - 30 mV时ICa完全失活。最大峰值电流约为10(-4)A/cm2,反转电位范围为 + 40至 + 60 mV。ICa失活的时间进程遵循一级动力学,电压依赖性时间常数范围为25至100毫秒。4. 讨论了ICa与未受精小鼠卵母细胞中的Ca2 +电流之间的显著相似性(冈本、高桥和山下,1977年)。5. 在高[Ca2 +]溶液中,当电压阶跃超过 - 20 mV时,记录到一种上升时间为几秒的缓慢外向电流。由于反转电位的值及其对[K]0的依赖性,它主要由K +携带。这种K +电流对TEA不敏感,并被Ca2 +拮抗剂阻断。6. 缓慢的K +电流(IK(Ca))被认为是由Ca2 +内流介导的,但其基础电导(GK(Ca))的电压依赖性与ICa的电压依赖性有显著差异。7. 结果与IK(Ca)既依赖于ICa又依赖于膜电位的假设一致。简要讨论了另一种假设。
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