调节 TREK 和 TRAAK 通道功能的分子调控。
Molecular regulations governing TREK and TRAAK channel functions.
机构信息
Université de Nice Sophia Antipolis, UFR Sciences, Nice, France.
出版信息
Channels (Austin). 2011 Sep-Oct;5(5):402-9. doi: 10.4161/chan.5.5.16469. Epub 2011 Sep 1.
Abstract
K+ channels with two-pore domain (K2p) form a large family of hyperpolarizing channels. They produce background currents that oppose membrane depolarization and cell excitability. They are involved in cellular mechanisms of apoptosis, vasodilatation, anesthesia, pain, neuroprotection and depression. This review focuses on TREK-1, TREK-2 and TRAAK channels subfamily and on the mechanisms that contribute to their molecular heterogeneity and functional regulations. Their molecular diversity is determined not only by the number of genes but also by alternative splicing and alternative initiation of translation. These channels are sensitive to a wide array of biophysical parameters that affect their activity such as unsaturated fatty acids, intra- and extracellular pH, membrane stretch, temperature, and intracellular signaling pathways. They interact with partner proteins that influence their activity and their plasma membrane expression. Molecular heterogeneity, regulatory mechanisms and protein partners are all expected to contribute to cell specific functions of TREK currents in many tissues.
摘要
双孔域钾通道(K2p)构成了一大类超极化通道。它们产生的背景电流对抗膜去极化和细胞兴奋性。它们参与细胞凋亡、血管舒张、麻醉、疼痛、神经保护和抑郁的细胞机制。本综述重点介绍 TREK-1、TREK-2 和 TRAAK 通道亚家族,以及导致它们分子异质性和功能调节的机制。它们的分子多样性不仅取决于基因的数量,还取决于选择性剪接和翻译起始的选择性。这些通道对影响其活性的多种生物物理参数敏感,如不饱和脂肪酸、细胞内外 pH 值、膜拉伸、温度和细胞内信号通路。它们与影响其活性和质膜表达的伴侣蛋白相互作用。分子异质性、调节机制和蛋白伴侣有望为 TREK 电流在许多组织中的细胞特异性功能做出贡献。
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