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Chloride Regulation: A Dynamic Equilibrium Crucial for Synaptic Inhibition

Overview
Journal Neuron
Publisher Cell Press
Specialty Neurology
Date 2016 Mar 18
PMID 26985723
Citations 122
Authors
Nicolas Doyon
Laurent Vinay
Steven A Prescott
Yves De Koninck
Affiliations
Soon will be listed here.
Abstract

Fast synaptic inhibition relies on tight regulation of intracellular Cl(-). Chloride dysregulation is implicated in several neurological and psychiatric disorders. Beyond mere disinhibition, the consequences of Cl(-) dysregulation are multifaceted and best understood in terms of a dynamical system involving complex interactions between multiple processes operating on many spatiotemporal scales. This dynamical perspective helps explain many unintuitive manifestations of Cl(-) dysregulation. Here we discuss how taking into account dynamical regulation of intracellular Cl(-) is important for understanding how synaptic inhibition fails, how to best detect that failure, why Cl(-) regulation is energetically so expensive, and the overall consequences for therapeutics.

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