TRPA1 is a Candidate for the Mechanosensitive Transduction Channel of Vertebrate Hair Cells

Overview

Journal Nature

Specialty Science

Date 2004 Oct 16

PMID 15483558

Citations 259

Authors

David P Corey

Jaime Garcia-Anoveros

Jeffrey R Holt

Kelvin Y Kwan

Shuh-Yow Lin

Melissa A Vollrath

Andrea Amalfitano

Eunice L-M Cheung

Bruce H Derfler

Anne Duggan

Gwenaelle S G Geleoc

Paul A Gray

Matthew P Hoffman

Heidi L Rehm

Daniel Tamasauskas

Duan-Sun Zhang

Affiliations

Soon will be listed here.

Abstract

Mechanical deflection of the sensory hair bundles of receptor cells in the inner ear causes ion channels located at the tips of the bundle to open, thereby initiating the perception of sound. Although some protein constituents of the transduction apparatus are known, the mechanically gated transduction channels have not been identified in higher vertebrates. Here, we investigate TRP (transient receptor potential) ion channels as candidates and find one, TRPA1 (also known as ANKTM1), that meets criteria for the transduction channel. The appearance of TRPA1 messenger RNA expression in hair cell epithelia coincides developmentally with the onset of mechanosensitivity. Antibodies to TRPA1 label hair bundles, especially at their tips, and tip labelling disappears when the transduction apparatus is chemically disrupted. Inhibition of TRPA1 protein expression in zebrafish and mouse inner ears inhibits receptor cell function, as assessed with electrical recording and with accumulation of a channel-permeant fluorescent dye. TRPA1 is probably a component of the transduction channel itself.

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