人钾通道Kv1.5中的缓慢门控电荷固定及其被4-氨基吡啶的预防作用
Slow gating charge immobilization in the human potassium channel Kv1.5 and its prevention by 4-aminopyridine.
作者信息
Fedida D, Bouchard R, Chen F S
机构信息
Department of Physiology, Queen's University, Kingston, Ontario, Canada.
出版信息
J Physiol. 1996 Jul 15;494 ( Pt 2)(Pt 2):377-87. doi: 10.1113/jphysiol.1996.sp021499.
Abstract
- The relationship between ionic current inactivation and immobilization of 'off'-gating charge in human Kv1.5 channels expressed in human embryonic kidney (HEK293) cells was studied using 4-aminopyridine (4-AP) and tetraethylammonium chloride (TEA-Cl). 2. The charge transferred during short (< 10 ms) depolarizations (Q(on)) was conserved on repolarization (Q(off)) although peak off-gating current (off-Ig) was reduced and the time course prolonged (tau decay increased from 0.4 to > 1.2 ms). For +80 mV pulses longer than 50 ms, Q(off) at 20 ms was less than Q(on) (Q(off)/Q(on) ratio was 0.26 +/- 0.06 at 450 ms). We attribute this to a relative 'immobilization' of gating charge during long depolarizations. 3. 4-AP (0.1-1 mM) prevented slowing of off-Ig, allowing saturation of peak off-Ig. 4-AP also completely prevented immobilization of off-Ig after long depolarizations. In 1 mM 4-AP, off-Ig waveforms decayed rapidly and the charge ratio Q(off)/Q(on) remained at 1.0. 4. In addition to its effects on Ig, 1 mM 4-AP prevented the slow inactivation of ionic current seen during strong depolarizations. An initial block was caused by 4-AP or 1 mM intracellular TEA internally applied. However, only 4-AP prevented the slower, later development of C-type inactivation. 5. We suggest that slow current inactivation is accompanied by a gating charge immobilization in Kv1.5. 4-AP potently inhibits the changes in Q(off)/Q(on0, off-Ig, and ionic currents that underlie slow inactivation. Some actions of 4-AP appear independent of its properties as a blocker of open K+ channels, and are not mimicked by internal TEA.
摘要
- 使用4-氨基吡啶(4-AP)和四乙铵氯化物(TEA-Cl)研究了在人胚肾(HEK293)细胞中表达的人Kv1.5通道中离子电流失活与“关闭”门控电荷固定化之间的关系。2. 在短(<10毫秒)去极化期间转移的电荷(Q(on))在复极化时得以保留(Q(off)),尽管关闭门控电流峰值(off-Ig)降低且时间进程延长(τ衰减从0.4毫秒增加至>1.2毫秒)。对于持续时间超过50毫秒的+80毫伏脉冲,20毫秒时的Q(off)小于Q(on)(在450毫秒时,Q(off)/Q(on)比率为0.26±0.06)。我们将此归因于长时间去极化期间门控电荷的相对“固定化”。3. 4-AP(0.1-1毫摩尔)可防止off-Ig减慢,使off-Ig峰值达到饱和。4-AP还完全防止了长时间去极化后off-Ig的固定化。在1毫摩尔4-AP中,off-Ig波形迅速衰减,电荷比率Q(off)/Q(on)保持在1.0。4. 除了对Ig的影响外,1毫摩尔4-AP还可防止强去极化期间出现的离子电流缓慢失活。最初的阻断是由内部施加的4-AP或1毫摩尔细胞内TEA引起的。然而,只有4-AP可防止C型失活更缓慢、更后期的发展。5. 我们认为,缓慢的电流失活伴随着Kv1.5中门控电荷的固定化。4-AP可有效抑制缓慢失活基础的Q(off)/Q(on0)、off-Ig和离子电流的变化。4-AP的某些作用似乎与其作为开放K+通道阻滞剂的特性无关,且内部TEA无法模拟这些作用。
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