Literature DB >> 26725113

Epilepsy-Related Slack Channel Mutants Lead to Channel Over-Activity by Two Different Mechanisms.

Qiong-Yao Tang1, Fei-Fei Zhang1, Jie Xu1, Ran Wang2, Jian Chen2, Diomedes E Logothetis3, Zhe Zhang4.   

Abstract

Twelve sodium-activated potassium channel (KCNT1, Slack) genetic mutants have been identified from severe early-onset epilepsy patients. The changes in biophysical properties of these mutants and the underlying mechanisms causing disease remain elusive. Here, we report that seven of the 12 mutations increase, whereas one mutation decreases, the channel's sodium sensitivity. Two of the mutants exhibit channel over-activity only when the intracellular Na(+) ([Na(+)]i) concentration is ∼80 mM. In contrast, single-channel data reveal that all 12 mutants increase the maximal open probability (Po). We conclude that these mutant channels lead to channel over-activity predominantly by increasing the ability of sodium binding to activate the channel, which is indicated by its maximal Po. The sodium sensitivity of these epilepsy causing mutants probably determines the [Na(+)]i concentration at which these mutants exert their pathological effects.
Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26725113      PMCID: PMC4706775          DOI: 10.1016/j.celrep.2015.12.019

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  53 in total

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4.  Missense mutations in the sodium-gated potassium channel gene KCNT1 cause severe autosomal dominant nocturnal frontal lobe epilepsy.

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Journal:  Nat Genet       Date:  2012-10-21       Impact factor: 38.330

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2.  The Phe932Ile mutation in KCNT1 channels associated with severe epilepsy, delayed myelination and leukoencephalopathy produces a loss-of-function channel phenotype.

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6.  Slo2/KNa Channels in Drosophila Protect against Spontaneous and Induced Seizure-like Behavior Associated with an Increased Persistent Na+ Current.

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Review 7.  Rational Small Molecule Treatment for Genetic Epilepsies.

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8.  Potassium Channel Gain of Function in Epilepsy: An Unresolved Paradox.

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10.  A KCNC1 mutation in epilepsy of infancy with focal migrating seizures produces functional channels that fail to be regulated by PKC phosphorylation.

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