α1E（CaV2.3）钙通道I-II连接区内失活的分子决定因素。

Molecular determinants of inactivation within the I-II linker of alpha1E (CaV2.3) calcium channels.

作者信息

Berrou L, Bernatchez G, Parent L

机构信息

Department of Physiology, Membrane Transport Research Group, Université de Montréal, Montréal, Québec H3C 3J7 Canada.

出版信息

Biophys J. 2001 Jan;80(1):215-28. doi: 10.1016/S0006-3495(01)76008-0.

DOI:10.1016/S0006-3495(01)76008-0

PMID:11159396

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1301227/

Abstract

Voltage-dependent inactivation of CaV2.3 channels was investigated using point mutations in the beta-subunit-binding site (AID) of the I-II linker. The quintuple mutant alpha1E N381K + R384L + A385D + D388T + K389Q (NRADK-KLDTQ) inactivated like the wild-type alpha1E. In contrast, mutations of alpha1E at position R378 (position 5 of AID) into negatively charged residues Glu (E) or Asp (D) significantly slowed inactivation kinetics and shifted the voltage dependence of inactivation to more positive voltages. When co-injected with beta3, R378E inactivated with tau(inact) = 538 +/- 54 ms (n = 14) as compared with 74 +/- 4 ms (n = 21) for alpha1E (p < 0.001) with a mid-potential of inactivation E(0.5) = -44 +/- 2 mV (n = 10) for R378E as compared with E(0.5) = -64 +/- 3 mV (n = 9) for alpha1E. A series of mutations at position R378 suggest that positively charged residues could promote voltage-dependent inactivation. R378K behaved like the wild-type alpha1E whereas R378Q displayed intermediate inactivation kinetics. The reverse mutation E462R in the L-type alpha1C (CaV1.2) produced channels with inactivation properties comparable to alpha1E R378E. Hence, position 5 of the AID motif in the I-II linker could play a significant role in the inactivation of Ca(V)1.2 and CaV2.3 channels.

摘要

利用I-II连接子的β亚基结合位点（AID）中的点突变研究了CaV2.3通道的电压依赖性失活。五重突变体α1E N381K + R384L + A385D + D388T + K389Q（NRADK-KLDTQ）的失活情况与野生型α1E相似。相比之下，α1E在R378位点（AID的第5位）突变为带负电荷的残基Glu（E）或Asp（D）会显著减慢失活动力学，并使失活的电压依赖性向更正的电压偏移。与β3共注射时，R378E的失活时间常数τ（inact）= 538±54毫秒（n = 14），而α1E为74±4毫秒（n = 21）（p <0.001），R378E的失活中点电位E（0.5）= -44±2毫伏（n = 10），而α1E为E（0.5）= -64±3毫伏（n = 9）。R378位点的一系列突变表明带正电荷的残基可促进电压依赖性失活。R378K的行为与野生型α1E相似，而R378Q表现出中等的失活动力学。L型α1C（CaV1.2）中的反向突变E462R产生的通道具有与α1E R378E相当的失活特性。因此，I-II连接子中AID基序的第5位可能在Ca（V）1.2和CaV2.3通道的失活中起重要作用。

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