1. The Touching Tail of a Mechanotransduction Channel
- Author
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Rachelle Gaudet, Paul A. Garrity, and Zachary A Knecht
- Subjects
Biochemistry, Genetics and Molecular Biology(all) ,Sensory system ,Anatomy ,Biology ,Mechanotransduction, Cellular ,Article ,General Biochemistry, Genetics and Molecular Biology ,Cell membrane ,Transient receptor potential channel ,Transient Receptor Potential Channels ,medicine.anatomical_structure ,medicine ,Animals ,Drosophila Proteins ,Drosophila ,Mechanotransduction ,Neuroscience ,Communication channel - Abstract
How metazoan mechanotransduction channels sense mechanical stimuli is not well understood. NOMPC channel in the transient receptor potential (TRP) family, a mechanotransduction channel for Drosophila touch sensation and hearing, contains 29 Ankyrin repeats (ARs) that associate with microtubules. These ARs have been postulated to act as a tether that conveys force to the channel. Here, we report that these N-terminal ARs form a cytoplasmic domain essential for NOMPC mechanogating in vitro, mechanosensitivity of touch receptor neurons in vivo, and touch-induced behaviors of Drosophila larvae. Duplicating the ARs elongates the filaments that tether NOMPC to microtubules in mechanosensory neurons. Moreover, microtubule association is required for NOMPC mechanogating. Importantly, transferring the NOMPC ARs to mechano-insensitive voltage-gated potassium channels confers mechanosensitivity to the chimeric channels. These experiments strongly support a tether mechanism of mechanogating for the NOMPC channel, providing insights regarding the basis of mechanosensitivity of mechanotransduction channels.
- Published
- 2015
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