Literature DB >> 30138589

TMC1 Forms the Pore of Mechanosensory Transduction Channels in Vertebrate Inner Ear Hair Cells.

Bifeng Pan1, Nurunisa Akyuz2, Xiao-Ping Liu1, Yukako Asai1, Carl Nist-Lund1, Kiyoto Kurima3, Bruce H Derfler2, Bence György2, Walrati Limapichat2, Sanket Walujkar4, Lahiru N Wimalasena4, Marcos Sotomayor4, David P Corey5, Jeffrey R Holt6.   

Abstract

The proteins that form the permeation pathway of mechanosensory transduction channels in inner-ear hair cells have not been definitively identified. Genetic, anatomical, and physiological evidence support a role for transmembrane channel-like protein (TMC) 1 in hair cell sensory transduction, yet the molecular function of TMC proteins remains unclear. Here, we provide biochemical evidence suggesting TMC1 assembles as a dimer, along with structural and sequence analyses suggesting similarity to dimeric TMEM16 channels. To identify the pore region of TMC1, we used cysteine mutagenesis and expressed mutant TMC1 in hair cells of Tmc1/2-null mice. Cysteine-modification reagents rapidly and irreversibly altered permeation properties of mechanosensory transduction. We propose that TMC1 is structurally similar to TMEM16 channels and includes ten transmembrane domains with four domains, S4-S7, that line the channel pore. The data provide compelling evidence that TMC1 is a pore-forming component of sensory transduction channels in auditory and vestibular hair cells.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  TMC1; TMC2; auditory; balance; hair cell; hearing; mechanosensory transduction; mechanotransduction; sensory transduction; vestibular

Mesh:

Substances:

Year:  2018        PMID: 30138589      PMCID: PMC6360533          DOI: 10.1016/j.neuron.2018.07.033

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


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