内腔氯离子依赖性激活内体钙通道：对扩大内体的膜片钳研究

Luminal chloride-dependent activation of endosome calcium channels: patch clamp study of enlarged endosomes.

作者信息

Saito Mitsuyoshi, Hanson Phyllis I, Schlesinger Paul

机构信息

Department of Cell Biology and Physiology, Washington University, St. Louis, Missouri 63110.

出版信息

J Biol Chem. 2007 Sep 14;282(37):27327-27333. doi: 10.1074/jbc.M702557200. Epub 2007 Jul 3.

DOI:10.1074/jbc.M702557200

PMID:17609211

Abstract

Although Ca(2+) release from early endosomes (EE) is important for the fusion of primary endosomes, the presence of an ion channel responsible for releasing calcium from the EE has not been shown. A recent proteomics study has identified the TRPV2 channel protein in EE, suggesting that transient receptor potential-like Ca(2+) channels may be in endosomes. The submicron size of endosomes has made it difficult to study their ion channels in the past. We have overcome this problem by generating enlarged EE with the help of a hydrolysis-deficient SKD1/VPS4B mutant in HEK293 cells. Here we report the first patch clamp recording of a novel endosome calcium channel (ECC) in these enlarged EE. The ECC shows a similar pharmacology to that of the TRPV2 channel. In addition, the ECC has a unique chloride-dependent regulation; it is inhibited by the endosome luminal chloride with a K(50) of 82 mm.

摘要

尽管早期内体（EE）释放Ca(2+)对于初级内体的融合很重要，但尚未发现存在负责从EE释放钙的离子通道。最近的一项蛋白质组学研究在EE中鉴定出了TRPV2通道蛋白，这表明类似瞬时受体电位的Ca(2+)通道可能存在于内体中。过去，内体的亚微米尺寸使得研究其离子通道变得困难。我们通过在HEK293细胞中借助水解缺陷型SKD1/VPS4B突变体生成扩大的EE克服了这个问题。在此，我们报告了在这些扩大的EE中首次对新型内体钙通道（ECC）进行的膜片钳记录。该ECC显示出与TRPV2通道相似的药理学特性。此外，ECC具有独特的氯离子依赖性调节；它被内体腔中的氯离子抑制，K(50)为82 mM。

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内腔氯离子依赖性激活内体钙通道：对扩大内体的膜片钳研究

Luminal chloride-dependent activation of endosome calcium channels: patch clamp study of enlarged endosomes.

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