镁离子(Mg2+)与精胺在人细胞系中表达的克隆IRK2通道上的竞争。
Competition between Mg2+ and spermine for a cloned IRK2 channel expressed in a human cell line.
作者信息
Yamashita T, Horio Y, Yamada M, Takahashi N, Kondo C, Kurachi Y
机构信息
Department of Pharmacology II, Faculty of Medicine, Osaka University, Japan.
出版信息
J Physiol. 1996 May 15;493 ( Pt 1)(Pt 1):143-56. doi: 10.1113/jphysiol.1996.sp021370.
Abstract
- A cloned inwardly rectifying K+ channel, IRK2, was expressed in a human cell line, human embryonic kidney (HEK) 293T. Its electrophysiological properties were examined using the patch clamp technique in the whole-cell, cell-attached and inside-out patch configurations. 2. The cells transfected with IRK2 cDNA exhibited a K+ current which showed classical properties of inwardly rectifying K+ channels at both whole-cell and single-channel levels. 3. In the inside-out patch configuration, intracellular Mg2+ (Mg2+i blocked the outward currents in a voltage-dependent and virtually time-independent manner. Mg2+i (1-100 microM) caused a decrease in the unitary current amplitude of the IRK2 channel by inducing subconducting levels. 4. In the absence of Mg2+i, intracellular spermine blocked the outwardly flowing IRK2 currents in a voltage- and time-dependent manner. Spermine (1-100 nM) did not affect the unitary channel current amplitude but reduced the channel open probability. The spermine block showed a slower time and steeper voltage dependence than the Mg2+i++ block. 5. When both these blockers were present, Mg2+i apparently attenuated the inhibitory effect of spermine on the outwardly flowing IRK2 currents. This interaction was voltage and time dependent, and could be well explained by a model in which Mg2+i and spermine competitively bind to the channel with their individual first-order kinetics. This competition would induce time-dependent transits of the channel between the Mg2+i -and spermine-blocked states via a single open state, thereby preserving a certain size of persistent outward currents at depolarized potentials.
摘要
- 一种克隆的内向整流钾通道IRK2在人细胞系人胚肾(HEK)293T中表达。使用膜片钳技术在全细胞、细胞贴附及内面向外膜片模式下检测其电生理特性。2. 用IRK2 cDNA转染的细胞表现出钾电流,该电流在全细胞和单通道水平均表现出内向整流钾通道的经典特性。3. 在内面向外膜片模式下,细胞内镁离子(Mg2+i)以电压依赖性且几乎与时间无关的方式阻断外向电流。Mg2+i(1 - 100微摩尔)通过诱导亚导通水平导致IRK2通道的单位电流幅度降低。4. 在不存在Mg2+i时,细胞内精胺以电压和时间依赖性方式阻断外向流动的IRK2电流。精胺(1 - 100纳摩尔)不影响单位通道电流幅度,但降低通道开放概率。精胺阻断表现出比Mg2+i阻断更慢的时间依赖性和更陡的电压依赖性。5. 当这两种阻断剂都存在时,Mg2+i明显减弱精胺对外向流动的IRK2电流的抑制作用。这种相互作用是电压和时间依赖性的,并且可以用一个模型很好地解释,在该模型中Mg2+i和精胺以各自的一级动力学竞争性地结合到通道上。这种竞争将通过单个开放状态诱导通道在Mg2+i阻断状态和精胺阻断状态之间的时间依赖性转变,从而在去极化电位下保持一定大小的持续外向电流。
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