Literature DB >> 25878292

Tau-dependent Kv4.2 depletion and dendritic hyperexcitability in a mouse model of Alzheimer's disease.

Alicia M Hall1, Benjamin T Throesch2, Susan C Buckingham3, Sean J Markwardt3, Yin Peng4, Qin Wang4, Dax A Hoffman5, Erik D Roberson6.   

Abstract

Neuronal hyperexcitability occurs early in the pathogenesis of Alzheimer's disease (AD) and contributes to network dysfunction in AD patients. In other disorders with neuronal hyperexcitability, dysfunction in the dendrites often contributes, but dendritic excitability has not been directly examined in AD models. We used dendritic patch-clamp recordings to measure dendritic excitability in the CA1 region of the hippocampus. We found that dendrites, more so than somata, of hippocampal neurons were hyperexcitable in mice overexpressing Aβ. This dendritic hyperexcitability was associated with depletion of Kv4.2, a dendritic potassium channel important for regulating dendritic excitability and synaptic plasticity. The antiepileptic drug, levetiracetam, blocked Kv4.2 depletion. Tau was required, as crossing with tau knock-out mice also prevented both Kv4.2 depletion and dendritic hyperexcitability. Dendritic hyperexcitability induced by Kv4.2 deficiency exacerbated behavioral deficits and increased epileptiform activity in hAPP mice. We conclude that increased dendritic excitability, associated with changes in dendritic ion channels including Kv4.2, may contribute to neuronal dysfunction in early stages AD.
Copyright © 2015 the authors 0270-6474/15/356221-10$15.00/0.

Entities:  

Keywords:  Alzheimer; Kv4.2; amyloid-beta; dendrites; excitability; tau

Mesh:

Substances:

Year:  2015        PMID: 25878292      PMCID: PMC4397611          DOI: 10.1523/JNEUROSCI.2552-14.2015

Source DB:  PubMed          Journal:  J Neurosci        ISSN: 0270-6474            Impact factor:   6.167


  52 in total

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7.  Reducing endogenous tau ameliorates amyloid beta-induced deficits in an Alzheimer's disease mouse model.

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10.  Pathogenic Tau Impairs Axon Initial Segment Plasticity and Excitability Homeostasis.

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