TRPA1 Channels Are Regulators of Astrocyte Basal Calcium Levels and Long-term Potentiation Via Constitutive D-serine Release

Overview

Journal J Neurosci

Specialty Neurology

Date 2013 Jun 14

PMID 23761909

Citations 160

Authors

Eiji Shigetomi

Olan Jackson-Weaver

Robert T Huckstepp

Thomas J ODell

Baljit S Khakh

Affiliations

Soon will be listed here.

Abstract

Astrocytes are found throughout the brain where they make extensive contacts with neurons and synapses. Astrocytes are known to display intracellular Ca(2+) signals and release signaling molecules such as D-serine into the extracellular space. However, the role(s) of astrocyte Ca(2+) signals in hippocampal long-term potentiation (LTP), a form of synaptic plasticity involved in learning and memory, remains unclear. Here, we explored a recently discovered novel TRPA1 channel-mediated transmembrane Ca(2+) flux pathway in astrocytes. Specifically, we determined whether block or genetic deletion of TRPA1 channels affected LTP of Schaffer collateral to CA1 pyramidal neuron synapses. Using pharmacology, TRPA1(-/-) mice, imaging, electrophysiology, and D-serine biosensors, our data indicate that astrocyte TRPA1 channels contribute to basal Ca(2+) levels and are required for constitutive D-serine release into the extracellular space, which contributes to NMDA receptor-dependent LTP. The findings have broad relevance for the study of astrocyte-neuron interactions by demonstrating how TRPA1 channel-mediated fluxes contribute to astrocyte basal Ca(2+) levels and neuronal function via constitutive D-serine release.

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