Kir2.1通道细胞内前庭的负电荷环调节钾离子通透。

A ring of negative charges in the intracellular vestibule of Kir2.1 channel modulates K+ permeation.

作者信息

Chang Hsueh-Kai, Yeh Shih-Hao, Shieh Ru-Chi

机构信息

Institute of Biomedical Sciences, Academia Sinica, Taipei 11529, Taiwan, Republic of China.

出版信息

Biophys J. 2005 Jan;88(1):243-54. doi: 10.1529/biophysj.104.052217. Epub 2004 Oct 29.

DOI:10.1529/biophysj.104.052217

PMID:15516518

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1305002/

Abstract

The glutamate at site 224 of a Kir2.1 channel plays an important role in K+ permeation. The single-channel inward current flickers with reduced conductance in an E224G mutant. We show that open-channel fluctuations can also be observed in E224C, E224K, and E224Q mutants. Yet, open-channel fluctuations were not observed in either the wild-type or an E224D mutant. Introducing a negatively charged methanethiosulfonate reagent to the E224C mutant irreversibly increased channel conductance and eliminated open-channel fluctuations. These results suggest that although the negatively charged residue 224 is located at the internal vestibule, it is important for smooth inward K+ conduction. We identified a substate in the E224G mutant and showed that open-channel fluctuations are mainly attributed to rapid transitions between the substate and the main state. Also, we characterized the voltage- and ion-dependence of the substate kinetics. The open-channel fluctuations decreased in internal NH4+ or Tl+ as compared to internal K+. These results suggest that NH4+ and Tl+ gate the E224G mutant in a more stable state. Based on an ion-conduction model, we propose that the appearance of the substate in the E224G mutant is due to changes of ion gating in association with variations of ion-ion interaction in the permeation pathway.

摘要

Kir2.1通道224位点的谷氨酸在钾离子通透中起重要作用。在E224G突变体中，单通道内向电流闪烁且电导降低。我们发现，在E224C、E224K和E224Q突变体中也能观察到开放通道波动。然而，在野生型或E224D突变体中均未观察到开放通道波动。向E224C突变体引入带负电荷的甲硫基磺酸盐试剂会不可逆地增加通道电导并消除开放通道波动。这些结果表明，尽管带负电荷的224位点位于内部前庭，但对钾离子顺利内向传导很重要。我们在E224G突变体中鉴定出一个亚状态，并表明开放通道波动主要归因于该亚状态与主要状态之间的快速转换。此外，我们还表征了亚状态动力学的电压和离子依赖性。与内部钾离子相比，内部铵离子或铊离子存在时开放通道波动减少。这些结果表明，铵离子和铊离子使E224G突变体处于更稳定的门控状态。基于离子传导模型，我们提出E224G突变体中亚状态的出现是由于渗透途径中离子门控变化与离子-离子相互作用变化相关。

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