人内向整流钾通道HERG激活与失活的分子决定因素
Molecular determinants for activation and inactivation of HERG, a human inward rectifier potassium channel.
作者信息
Schönherr R, Heinemann S H
机构信息
Max-Planck-Gesellschaft, Arbeitsgruppe Molekulare und zelluläre Biophysik an der Friedrich-Schiller-Universität Jena, Germany.
出版信息
J Physiol. 1996 Jun 15;493 ( Pt 3)(Pt 3):635-42. doi: 10.1113/jphysiol.1996.sp021410.
Abstract
- The human eag-related potassium channel, HERG, gives rise to inwardly rectifying K+ currents when expressed in Xenopus oocytes. 2. The apparent inward rectification is caused by rapid inactivation. In extracellular Cs+ solutions, large outward currents can be recorded having an inactivation time constant at 0 mV of about 50 ms with an e-fold change every 37 mV. 3. HERG channel inactivation is not caused by an amino-terminal ball structure, as a deletion of the cytoplasmic amino terminus (HERG delta 2-373) did not eliminate inactivation. However, channel deactivation was accelerated about 12-fold at -80 mV. 4. Mutation of S631 to A, the homologous residue of eag channels, in the outer mouth of the HERG pore completely abolished channel inactivation. 5. Activity of HERG channels depended on extracellular cations, which are effective for channel activation, in the order Cs+ > K+ > > Li+ > Na+. The point mutation S631A strongly reduced this channel regulation. 6. By analogy to functional aspects of cloned voltage-gated potassium channels, rectification of HERG, as well as its kinetic properties during the course of an action potential, are presumably governed by a mechanism reminiscent of C-type inactivation.
摘要
- 人类醚 - 乙酰胆碱受体相关钾通道(HERG)在非洲爪蟾卵母细胞中表达时会产生内向整流钾电流。2. 明显的内向整流是由快速失活引起的。在细胞外铯离子(Cs +)溶液中,可以记录到较大的外向电流,其在0 mV时的失活时间常数约为50毫秒,每37 mV变化一个数量级。3. HERG通道失活不是由氨基末端球状结构引起的,因为细胞质氨基末端缺失(HERG delta 2 - 373)并没有消除失活。然而,在 - 80 mV时通道去激活加速了约12倍。4. 将HERG孔外口处与醚 - 乙酰胆碱受体通道同源的残基S631突变为丙氨酸(A)完全消除了通道失活。5. HERG通道的活性取决于细胞外阳离子,这些阳离子对通道激活有效,其顺序为Cs + > K + > > Li + > Na +。点突变S631A强烈降低了这种通道调节。6. 类似于克隆的电压门控钾通道的功能方面,HERG的整流以及其在动作电位过程中的动力学特性可能受一种类似于C型失活的机制支配。
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