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M型和延迟整流钾通道的离子通透与阻断。牛蛙交感神经元的全细胞记录。

Ion permeation and block of M-type and delayed rectifier potassium channels. Whole-cell recordings from bullfrog sympathetic neurons.

作者信息

Block B M, Jones S W

机构信息

Department of Neurosciences, Case Western Reserve University, Cleveland, Ohio 44106, USA.

出版信息

J Gen Physiol. 1996 Apr;107(4):473-88. doi: 10.1085/jgp.107.4.473.

Abstract

Ion permeation and conduction were studied using whole-cell recordings of the M-current (I(M)) and delayed rectifier (IDR), two K+ currents that differ greatly in kinetics and modulation. Currents were recorded from isolated bullfrog sympathetic neurons with 88 mM [K+]i and various external cations. Selectivity for extracellular monovalent cations was assessed from permeability ratios calculated from reversal potentials and from chord conductances for inward current. PRb/PK was near 1.0 for both channels, and GRb/GK was 0.87 +/- 0.01 for IDR but only 0.35 +/- 0.01 for I(M) (15 mM [Rb+]o or [K+]o). The permeability sequences were generally similar for I(M) and IDR: K+ approximately Rb+ > NH4+ > Cs+, with no measurable permeability to Li+ or CH3NH3+. However, Na+ carried detectable inward current for IDR but not I(M). Nao+ also blocked inward K+ current for IDR (but not IM), at an apparent electrical distance (delta) approximately 0.4, with extrapolated dissociation constant (KD) approximately 1 M at 0 mV. Much of the instantaneous rectification of IDR in physiologic ionic conditions resulted from block by Nao+. Extracellular Cs+ carried detectable inward current for both channel types, and blocked I(M) with higher affinity (KD = 97 mM at 0 mV for I(M), KD) approximately 0.2 M at 0 mV for IDR), with delta approximately 0.9 for both. IDR showed several characteristics reflecting a multi-ion pore, including a small anomalous mole fraction effect for PRb/PK, concentration-dependent GRb/GK, and concentration-dependent apparent KD's and delta's for block by Nao+ and Cso+. I(M) showed no clear evidence of multi-ion pore behavior. For I(M), a two-barrier one-site model could describe permeation of K+ and Rb+ and block by Cso+, whereas for IDR even a three-barrier, two-site model was not fully adequate.

摘要

利用全细胞膜片钳记录M电流(I(M))和延迟整流钾电流(IDR)来研究离子渗透和传导,这两种钾电流在动力学和调节方面有很大差异。在细胞内钾离子浓度为88 mM以及存在各种细胞外阳离子的情况下,记录分离的牛蛙交感神经元的电流。通过由反转电位计算得到的渗透率比值以及内向电流的弦电导来评估细胞外单价阳离子的选择性。对于这两种通道,PRb/PK均接近1.0,在细胞外铷离子浓度或钾离子浓度为15 mM时,IDR的GRb/GK为0.87±0.01,而I(M)的GRb/GK仅为0.35±0.01。I(M)和IDR的渗透率序列通常相似:钾离子≈铷离子>铵离子>铯离子,对锂离子或甲胺离子无明显渗透率。然而,钠离子可携带IDR的可检测内向电流,但不能携带I(M)的内向电流。细胞外钠离子也可阻断IDR的内向钾电流(但不阻断I(M)),表观电距离(δ)约为0.4,在0 mV时外推解离常数(KD)约为1 M。生理离子条件下IDR的大部分瞬时整流是由细胞外钠离子阻断所致。细胞外铯离子可携带这两种通道类型的可检测内向电流,并以更高的亲和力阻断I(M)(在0 mV时I(M)的KD = 97 mM,IDR在0 mV时的KD约为0.2 M),两者的δ均约为0.9。IDR表现出反映多离子孔的几个特征,包括PRb/PK的小异常摩尔分数效应、浓度依赖性的GRb/GK以及钠离子和铯离子阻断的浓度依赖性表观KD和δ。I(M)未表现出多离子孔行为的明确证据。对于I(M),双势垒单位点模型可以描述钾离子和铷离子的渗透以及铯离子的阻断,而对于IDR,即使是三势垒双位点模型也不完全适用。

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