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Literature DB >> 16121193

Conformational changes of pore helix coupled to gating of TRPV5 by protons.

Byung-Il Yeh¹, Yung Kyu Kim, Wasey Jabbar, Chou-Long Huang.

Abstract

The transient receptor potential channel TRPV5 constitutes the apical entry pathway for transepithelial Ca2+ transport. We showed that TRPV5 was inhibited by both physiological intra- and extracellular acid pH. Inhibition of TRPV5 by internal protons was enhanced by extracellular acidification. Similarly, inhibition by external protons was enhanced by intracellular acidification. Mutation of either an extra- or an intracellular pH sensor blunted the cross-inhibition by internal and external protons. Both internal and external protons regulated the selectivity filter gate. Using the substituted cysteine accessibility method, we found that intracellular acidification of TRPV5 caused a conformational change of the pore helix consistent with clockwise rotation along its long axis. Thus, rotation of pore helix caused by internal protons facilitates closing of TRPV5 by external protons. This regulation by protons likely contributes to pathogenesis of disturbances of Ca2+ transport in many diseased states. Rotation of pore helix may be a common mechanism for cross-regulation of ion channels by extra- and intracellular signals.

Entities: Chemical Gene

Mesh：

Substances：

Year: 2005 PMID： 16121193 PMCID： PMC1224685 DOI： 10.1038/sj.emboj.7600795

Source DB: PubMed Journal: EMBO J ISSN： 0261-4189 Impact factor: 11.598

34 in total

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5. Homo- and heterotetrameric architecture of the epithelial Ca2+ channels TRPV5 and TRPV6.

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Journal: EMBO J Date: 2003-02-17 Impact factor: 11.598

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9. Mg2+-dependent gating and strong inward rectification of the cation channel TRPV6.

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Journal: J Gen Physiol Date: 2003-03 Impact factor: 4.086

10. Permeation properties of a Ca(2+)-blockable monovalent cation channel in the ectoderm of the chick embryo: pore size and multioccupancy probed with organic cations and Ca2+.

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34 in total

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3. On the role of pore helix in regulation of TRPV5 by extracellular protons.

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