Literature DB >> 26931806

Hyperpolarization-Activated Cyclic Nucleotide-Gated (HCN) Channels in Epilepsy.

Gary P Brennan1, Tallie Z Baram2, Nicholas P Poolos3.   

Abstract

Epilepsy is a common brain disorder characterized by the occurrence of spontaneous seizures. These bursts of synchronous firing arise from abnormalities of neuronal networks. Excitability of individual neurons and neuronal networks is largely governed by ion channels and, indeed, abnormalities of a number of ion channels resulting from mutations or aberrant expression and trafficking underlie several types of epilepsy. Here, we focus on the hyperpolarization-activated cyclic nucleotide-gated ion (HCN) channels that conduct Ih current. This conductance plays complex and diverse roles in the regulation of neuronal and network excitability. We describe the normal function of HCN channels and discuss how aberrant expression, assembly, trafficking, and posttranslational modifications contribute to experimental and human epilepsy.
Copyright © 2016 Cold Spring Harbor Laboratory Press; all rights reserved.

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Year:  2016        PMID: 26931806      PMCID: PMC4772079          DOI: 10.1101/cshperspect.a022384

Source DB:  PubMed          Journal:  Cold Spring Harb Perspect Med        ISSN: 2157-1422            Impact factor:   6.915


  87 in total

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Journal:  Nat Med       Date:  2001-03       Impact factor: 53.440

6.  Seizure-induced plasticity of h channels in entorhinal cortical layer III pyramidal neurons.

Authors:  Mala M Shah; Anne E Anderson; Victor Leung; Xiaodi Lin; Daniel Johnston
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7.  Hyperpolarization-activated cation channels in fast-spiking interneurons of rat hippocampus.

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  18 in total

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5.  Loss of HCN channel mediated Ih current following seizures accounts for movement dysfunction.

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6.  Structural Analysis of Hippocampal Kinase Signal Transduction.

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9.  HCN Channel Phosphorylation Sites Mapped by Mass Spectrometry in Human Epilepsy Patients and in an Animal Model of Temporal Lobe Epilepsy.

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10.  Computational Evidence for a Competitive Thalamocortical Model of Spikes and Spindle Activity in Rolandic Epilepsy.

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