Microtubule Acetylation Is Required for Mechanosensation in Drosophila

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2018 Oct 26

PMID 30355484

Citations 34

Authors

Connie Yan

Fei Wang

Yun Peng

Claire R Williams

Brian Jenkins

Jill Wildonger

Hyeon-Jin Kim

Jonathan B Perr

Joshua C Vaughan

Megan E Kern

Michael R Falvo

E Timothy OBrien 3rd

Richard Superfine

John C Tuthill

Yang Xiang

Stephen L Rogers

Jay Z Parrish

Affiliations

Soon will be listed here.

Abstract

At the cellular level, α-tubulin acetylation alters the structure of microtubules to render them mechanically resistant to compressive forces. How this biochemical property of microtubule acetylation relates to mechanosensation remains unknown, although prior studies have shown that microtubule acetylation influences touch perception. Here, we identify the major Drosophila α-tubulin acetylase (dTAT) and show that it plays key roles in several forms of mechanosensation. dTAT is highly expressed in the larval peripheral nervous system (PNS), but it is largely dispensable for neuronal morphogenesis. Mutation of the acetylase gene or the K40 acetylation site in α-tubulin impairs mechanical sensitivity in sensory neurons and behavioral responses to gentle touch, harsh touch, gravity, and vibration stimuli, but not noxious thermal stimulus. Finally, we show that dTAT is required for mechanically induced activation of NOMPC, a microtubule-associated transient receptor potential channel, and functions to maintain integrity of the microtubule cytoskeleton in response to mechanical stimulation.

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