TRPA1 expression and its functional activation in rodent cortex

Author:

Kheradpezhouh Ehsan12ORCID,Choy Julian M. C.1,Daria Vincent R.1,Arabzadeh Ehsan12

Affiliation:

1. Eccles Institute of Neuroscience, John Curtin School of Medical Research, Australian National University Node, Acton, Australian Capital Territory 2601, Australia

2. The Australian Research Council Centre of Excellence for Integrative Brain Research, Australian National University Node, Acton, Australian Capital Territory 2601, Australia

Abstract

TRPA1 is a non-selective cation channel involved in pain sensation and neurogenic inflammation. Although TRPA1 is well established in a number of organs including the nervous system, its presence and function in the mammalian cortex remains unclear. Here, we demonstrate the expression of TRPA1 in rodent somatosensory cortex through immunostaining and investigate its functional activation by whole-cell electrophysiology, Ca 2+ imaging and two-photon photoswitching. Application of TRPA1 agonist (AITC) and antagonist (HC-030031) produced significant modulation of activity in layer 5 (L5) pyramidal neurons in both rats and mice; AITC increased intracellular Ca 2+ concentrations and depolarized neurons, and both effects were blocked by HC-030031. These modulations were absent in the TRPA1 knockout mice. Next, we used optovin, a reversible photoactive molecule, to activate TRPA1 in individual L5 neurons of rat cortex. Optical control of activity was established by applying a tightly focused femtosecond-pulsed laser to optovin-loaded neurons. Light application depolarized neurons ( n = 17) with the maximal effect observed at λ = 720 nm. Involvement of TRPA1 was further confirmed by repeating the experiment in the presence of HC-030031, which diminished the light modulation. These results demonstrate the presence of TRPA1 in L5 pyramidal neurons and introduce a highly specific approach to further understand its functional significance.

Funder

ARC Future Fellowship

ARC Centre of Excellence for Integrative Brain Function

Australian Research Council (ARC) Discovery Project

Publisher

The Royal Society

Subject

General Biochemistry, Genetics and Molecular Biology,Immunology,General Neuroscience

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