人源 SLO3 酸和电压门控钾通道的功能和结构分析。

Functional and structural analysis of the human SLO3 pH- and voltage-gated K+ channel.

机构信息

Laboratory of Molecular Neurobiology and Biophysics and Howard Hughes Medical Institute, The Rockefeller University, New York, NY 10065, USA.

出版信息

Proc Natl Acad Sci U S A. 2012 Nov 20;109(47):19274-9. doi: 10.1073/pnas.1215078109. Epub 2012 Nov 5.

DOI:10.1073/pnas.1215078109

PMID:23129643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3511096/

Abstract

The activation of eukaryotic SLO K(+) channels by intracellular cues, mediated by a cytoplasmic structure called the gating ring, is central to their physiological roles. SLO3 channels are exclusively expressed in mammalian sperm, where variations of intracellular pH are critical to cellular function. Previous studies primarily focused on the mouse SLO3 orthologue and revealed that, in murine sperm, SLO3 mediates a voltage- and alkalization-activated K(+) current essential to male fertility. Here we investigate the activation of the human SLO3 channel by intracellular pH at the functional and structural level. By using electrophysiology in a heterologous system, we show that human SLO3 opens upon intracellular pH increase and that its expression and functional properties are modulated by LRRC52, a testis-specific accessory subunit. We next present the crystal structure of the human SLO3 gating ring. Comparison with the known structures of the corresponding domain from SLO1, a Ca(2+)-activated homologue, suggests that the SLO3 gating ring structure may represent an open state. Together, these results present insights into the function of a protein expected to be critical for human reproduction and provide a framework to study the mechanism of pH gating in SLO3 channels.

摘要

真核 SLO K(+) 通道的激活由细胞内信号通过一种称为门控环的细胞质结构介导，这是其生理作用的核心。SLO3 通道仅在哺乳动物精子中表达，细胞内 pH 的变化对细胞功能至关重要。以前的研究主要集中在小鼠 SLO3 同源物上，揭示了在鼠精子中，SLO3 介导一种电压和碱化激活的 K(+)电流，对雄性生育力至关重要。在这里，我们从功能和结构水平研究了细胞内 pH 对人 SLO3 通道的激活。通过在异源系统中使用电生理学，我们表明人 SLO3 在细胞内 pH 增加时打开，并且其表达和功能特性受 LRRC52 调节，LRRC52 是一种睾丸特异性辅助亚基。接下来，我们展示了人 SLO3 门控环的晶体结构。与已知的钙激活同源物 SLO1 的相应结构域的比较表明，SLO3 门控环结构可能代表开放状态。这些结果共同揭示了对人类生殖至关重要的蛋白质的功能，并为研究 SLO3 通道 pH 门控的机制提供了框架。

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