The distribution and targeting of neuronal voltage-gated ion channels

Helen C. Lai; Lily Y. Jan

doi:10.1038/nrn1938

The distribution and targeting of neuronal voltage-gated ion channels

Helen C. Lai, Lily Y. Jan

Neuroscience

Research output: Contribution to journal › Review article › peer-review

366 Scopus citations

Abstract

Voltage-gated ion channels have to be at the right place in the right number to endow individual neurons with their specific character. Their biophysical properties together with their spatial distribution define the signalling characteristics of a neuron. Improper channel localization could cause communication defects in a neuronal network. This review covers recent studies of mechanisms for targeting voltage-gated ion channels to axons and dendrites, including trafficking, retention and endocytosis pathways for the preferential localization of particular ion channels. We also discuss how the spatial localization of these channels might contribute to the electrical excitability of neurons, and consider the need for future work in this emerging field.

Original language	English (US)
Pages (from-to)	548-562
Number of pages	15
Journal	Nature Reviews Neuroscience
Volume	7
Issue number	7
DOIs	https://doi.org/10.1038/nrn1938
State	Published - Jul 2006

ASJC Scopus subject areas

General Neuroscience

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10.1038/nrn1938

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title = "The distribution and targeting of neuronal voltage-gated ion channels",

abstract = "Voltage-gated ion channels have to be at the right place in the right number to endow individual neurons with their specific character. Their biophysical properties together with their spatial distribution define the signalling characteristics of a neuron. Improper channel localization could cause communication defects in a neuronal network. This review covers recent studies of mechanisms for targeting voltage-gated ion channels to axons and dendrites, including trafficking, retention and endocytosis pathways for the preferential localization of particular ion channels. We also discuss how the spatial localization of these channels might contribute to the electrical excitability of neurons, and consider the need for future work in this emerging field.",

author = "Lai, {Helen C.} and Jan, {Lily Y.}",

note = "Funding Information: We would like to thank F. Haass for critical reading of the manuscript. We thank K. Raab-Graham and members of the Jan laboratory for helpful discussions. H.C.L. was supported by an American Heart Association pre-doctoral fellowship, Western States Affiliate. L.Y.J. is a Howard Hughes Medical Institute investigator. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.",

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N2 - Voltage-gated ion channels have to be at the right place in the right number to endow individual neurons with their specific character. Their biophysical properties together with their spatial distribution define the signalling characteristics of a neuron. Improper channel localization could cause communication defects in a neuronal network. This review covers recent studies of mechanisms for targeting voltage-gated ion channels to axons and dendrites, including trafficking, retention and endocytosis pathways for the preferential localization of particular ion channels. We also discuss how the spatial localization of these channels might contribute to the electrical excitability of neurons, and consider the need for future work in this emerging field.

AB - Voltage-gated ion channels have to be at the right place in the right number to endow individual neurons with their specific character. Their biophysical properties together with their spatial distribution define the signalling characteristics of a neuron. Improper channel localization could cause communication defects in a neuronal network. This review covers recent studies of mechanisms for targeting voltage-gated ion channels to axons and dendrites, including trafficking, retention and endocytosis pathways for the preferential localization of particular ion channels. We also discuss how the spatial localization of these channels might contribute to the electrical excitability of neurons, and consider the need for future work in this emerging field.

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The distribution and targeting of neuronal voltage-gated ion channels

Abstract

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