细胞质RCK结构域的动态寡聚体转换介导了MthK钾通道活性。

Dynamic oligomeric conversions of the cytoplasmic RCK domains mediate MthK potassium channel activity.

作者信息

Kuo Mario Meng-Chiang, Baker Kent A, Wong Lee, Choe Senyon

机构信息

Structural Biology Laboratory, The Salk Institute for Biological Studies, La Jolla, CA 92037, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 Feb 13;104(7):2151-6. doi: 10.1073/pnas.0609085104. Epub 2007 Feb 7.

DOI:10.1073/pnas.0609085104

PMID:17287352

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1892972/

Abstract

The crystal structure of the RCK-containing MthK provides a molecular framework for understanding the ligand gating mechanisms of K+ channels. Here we examined the macroscopic currents of MthK in enlarged Escherichia coli membrane by patch clamp and rapid perfusion techniques and showed that the channel undergoes desensitization in seconds after activation by Ca2+ or Cd2+. Additionally, MthK is inactivated by slightly acidic pH only from the cytoplasmic side. Examinations of isolated RCK domain by size-exclusion chromatography, static light scattering, analytical sedimentation, and stopped-flow spectroscopy show that Ca2+ rapidly converts isolated RCK monomers to multimers at alkaline pH. In contrast, the RCK domain at acidic pH remains firmly dimeric regardless of Ca2+ but restores predominantly to multimer or monomer at basic pH with or without Ca2+, respectively. These functional and biochemical analyses correlate the four functional states of the MthK channel with distinct oligomeric states of its RCK domains and indicate that the RCK domains undergo oligomeric conversions in modulating MthK activities.

摘要

含RCK的MthK的晶体结构为理解钾离子通道的配体门控机制提供了分子框架。在此，我们通过膜片钳和快速灌注技术检测了在扩大的大肠杆菌膜中MthK的宏观电流，结果表明该通道在被Ca2+或Cd2+激活后数秒内会发生脱敏。此外，MthK仅在细胞质一侧受到微酸性pH的影响而失活。通过尺寸排阻色谱、静态光散射、分析沉降和停流光谱对分离出的RCK结构域进行检测，结果表明在碱性pH条件下，Ca2+能迅速将分离出的RCK单体转化为多聚体。相比之下，在酸性pH条件下，无论有无Ca2+，RCK结构域都保持稳定的二聚体状态，但在碱性pH条件下，分别在有或无Ca2+时主要恢复为多聚体或单体。这些功能和生化分析将MthK通道的四种功能状态与其RCK结构域不同的寡聚状态联系起来，表明RCK结构域在调节MthK活性时会发生寡聚转化。

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