大鼠骨骼肌ATP依赖性钾通道Mg2+阻断的速率理论模型。
A rate theory model for Mg2+ block of ATP-dependent potassium channels of rat skeletal muscle.
作者信息
Davies N W, McKillen H C, Stanfield P R, Standen N B
机构信息
Department of Cell Physiology and Pharmacology, University of Leicester, UK.
出版信息
J Physiol. 1996 Feb 1;490 ( Pt 3)(Pt 3):817-26. doi: 10.1113/jphysiol.1996.sp021189.
Abstract
- We have studied the block by intracellular Mg2+ (0.08-4mM) of ATP-dependent potassium channels (KATP channels) from rat skeletal muscle using inside-out excised sarcolemmal patches. The block is voltage dependent, is relieved by extracellular potassium and has rapid kinetics, allowing the use of amplitude distribution analysis to estimate on and off rates. 2. To gain insight into the pore properties necessary to produce such a block, we have used an energy barrier model based on Eyring rate theory. The model has two energy wells and three barriers for K+ within the pore, while intracellular Mg2+ has access only to the inner well. We fitted the model to unitary current-voltage relations in different [Mg2+], to on and off rates, and to dissociation constants for Mg2+ block. 3. The voltage dependence of block was almost entirely due to the rate constant for unblocking. This implies that the inner energy barrier is asymmetrical, so that Mg2+ entry senses little of the voltage field, but Mg2+ exit senses about 20% of the voltage field. Best fits were obtained by placing the barrier and binding site 0.01 and 0.22, respectively, of the electrical distance through the pore from the inside. 4. The relief of block by [K+]o resulted from an increase in the unblocking rate for Mg2+, implying ionic repulsion between ions in the pore.
摘要
- 我们使用内面向外式切除肌膜片,研究了细胞内镁离子(0.08 - 4 mM)对大鼠骨骼肌中ATP依赖性钾通道(KATP通道)的阻断作用。这种阻断作用依赖于电压,可被细胞外钾离子解除,且动力学迅速,这使得我们能够利用幅度分布分析来估算开启和关闭速率。2. 为深入了解产生这种阻断所需的孔道特性,我们基于艾林速率理论使用了一种能量屏障模型。该模型在孔道内有两个能量阱和三个钾离子屏障,而细胞内镁离子只能进入内阱。我们将该模型与不同镁离子浓度下的单位电流 - 电压关系、开启和关闭速率以及镁离子阻断的解离常数进行拟合。3. 阻断的电压依赖性几乎完全归因于去阻断速率常数。这意味着内部能量屏障是不对称的,因此镁离子进入时对电压场的感知很小,但镁离子离开时对电压场的感知约为20%。通过将屏障和结合位点分别置于从内部穿过孔道的电距离的0.01和0.22处,可获得最佳拟合。4. 细胞外钾离子对阻断的解除是由于镁离子去阻断速率的增加,这意味着孔道内离子之间存在离子排斥作用。
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