Literature DB >> 22500639

Calcium-activated chloride channels (CaCCs) regulate action potential and synaptic response in hippocampal neurons.

Wendy C Huang1, Shaohua Xiao, Fen Huang, Brian D Harfe, Yuh Nung Jan, Lily Yeh Jan.   

Abstract

Central neurons respond to synaptic inputs from other neurons by generating synaptic potentials. Once the summated synaptic potentials reach threshold for action potential firing, the signal propagates leading to transmitter release at the synapse. The calcium influx accompanying such signaling opens calcium-activated ion channels for feedback regulation. Here, we report a mechanism for modulating hippocampal neuronal signaling that involves calcium-activated chloride channels (CaCCs). We present evidence that CaCCs reside in hippocampal neurons and are in close proximity of calcium channels and NMDA receptors to shorten action potential duration, dampen excitatory synaptic potentials, impede temporal summation, and raise the threshold for action potential generation by synaptic potential. Having recently identified TMEM16A and TMEM16B as CaCCs, we further show that TMEM16B but not TMEM16A is important for hippocampal CaCC, laying the groundwork for deciphering the dynamic CaCC modulation of neuronal signaling in neurons important for learning and memory.
Copyright © 2012 Elsevier Inc. All rights reserved.

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Year:  2012        PMID: 22500639      PMCID: PMC3329964          DOI: 10.1016/j.neuron.2012.01.033

Source DB:  PubMed          Journal:  Neuron        ISSN: 0896-6273            Impact factor:   17.173


  58 in total

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  81 in total

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6.  Modeling sources of interlaboratory variability in electrophysiological properties of mammalian neurons.

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7.  Preassociated apocalmodulin mediates Ca2+-dependent sensitization of activation and inactivation of TMEM16A/16B Ca2+-gated Cl- channels.

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