[PDF][PDF] Sodium leak channels in neuronal excitability and rhythmic behaviors
D Ren - Neuron, 2011 - cell.com
D Ren
Neuron, 2011•cell.comExtracellular K+, Na+, and Ca 2+ ions all influence the resting membrane potential of the
neuron. However, the mechanisms by which extracellular Na+ and Ca 2+ regulate basal
neuronal excitability are not well understood. Recent findings suggest that NALCN, in
association with UNC79 and UNC80, contributes a basal Na+ leak conductance in neurons.
Mutations in Nalcn, Unc79, or Unc80 lead to severe phenotypes that include neonatal
lethality and disruption in rhythmic behaviors. This review discusses the properties of the …
neuron. However, the mechanisms by which extracellular Na+ and Ca 2+ regulate basal
neuronal excitability are not well understood. Recent findings suggest that NALCN, in
association with UNC79 and UNC80, contributes a basal Na+ leak conductance in neurons.
Mutations in Nalcn, Unc79, or Unc80 lead to severe phenotypes that include neonatal
lethality and disruption in rhythmic behaviors. This review discusses the properties of the …
Extracellular K+, Na+, and Ca2+ ions all influence the resting membrane potential of the neuron. However, the mechanisms by which extracellular Na+ and Ca2+ regulate basal neuronal excitability are not well understood. Recent findings suggest that NALCN, in association with UNC79 and UNC80, contributes a basal Na+ leak conductance in neurons. Mutations in Nalcn, Unc79, or Unc80 lead to severe phenotypes that include neonatal lethality and disruption in rhythmic behaviors. This review discusses the properties of the NALCN complex, its regulation, and its contribution to neuronal function and animal behavior.
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