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Literature DB >> 30224462

Leak potassium channels regulate sleep duration.

Kensuke Yoshida¹, Shoi Shi^1,2,3, Maki Ukai-Tadenuma^2,3, Hiroshi Fujishima², Rei-Ichiro Ohno¹, Hiroki R Ueda^4,2,3.

Abstract

A primary goal of sleep research is to understand the molecular basis of sleep. Although some sleep/wake-promoting circuits and secreted substances have been identified, the detailed molecular mechanisms underlying the regulation of sleep duration have been elusive. Here, to address these mechanisms, we developed a simple computational model of a cortical neuron with five channels and a pump, which recapitulates the cortical electrophysiological characteristics of slow-wave sleep (SWS) and wakefulness. Comprehensive bifurcation and detailed mathematical analyses predicted that leak K+ channels play a role in generating the electrophysiological characteristics of SWS, leading to a hypothesis that leak K+ channels play a role in the regulation of sleep duration. To test this hypothesis experimentally, we comprehensively generated and analyzed 14 KO mice, and found that impairment of the leak K+ channel (Kcnk9) decreased sleep duration. Based on these results, we hypothesize that leak K+ channels regulate sleep duration in mammals.

Entities: Disease Gene Species

Keywords: Ca2+-dependent hyperpolarization pathway; computational model; leak potassium channel; sleep; slow-wave sleep firing pattern

Mesh：

Substances：

Year: 2018 PMID： 30224462 PMCID： PMC6176580 DOI： 10.1073/pnas.1806486115

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

25 in total

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5. Involvement of Ca(2+)-Dependent Hyperpolarization in Sleep Duration in Mammals.

Authors: Fumiya Tatsuki; Genshiro A Sunagawa; Shoi Shi; Etsuo A Susaki; Hiroko Yukinaga; Dimitri Perrin; Kenta Sumiyama; Maki Ukai-Tadenuma; Hiroshi Fujishima; Rei-ichiro Ohno; Daisuke Tone; Koji L Ode; Katsuhiko Matsumoto; Hiroki R Ueda
Journal: Neuron Date: 2016-03-17 Impact factor: 17.173

Review 6. Ca²⁺ -Dependent Hyperpolarization Pathways in Sleep Homeostasis and Mental Disorders.

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7. Extracellular calcium modulates persistent sodium current-dependent burst-firing in hippocampal pyramidal neurons.

Authors: H Su; G Alroy; E D Kirson; Y Yaari
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9. Mania-like behavior induced by genetic dysfunction of the neuron-specific Na+,K+-ATPase α3 sodium pump.

Authors: Greer S Kirshenbaum; Steven J Clapcote; Steven Duffy; Christian R Burgess; Janne Petersen; Karolina J Jarowek; Yeni H Yücel; Miguel A Cortez; O Carter Snead; Bente Vilsen; John H Peever; Martin R Ralph; John C Roder
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10. Mammalian Reverse Genetics without Crossing Reveals Nr3a as a Short-Sleeper Gene.

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Leak potassium channels regulate sleep duration.

1. Cellular and network mechanisms of slow oscillatory activity (<1 Hz) and wave propagations in a cortical network model.

2. Modeling sleep and wakefulness in the thalamocortical system.

Review 3. Hypothalamic regulation of sleep and circadian rhythms.

Review 4. Fast and slow Ca²⁺-dependent hyperpolarization mechanisms connect membrane potential and sleep homeostasis.

5. Involvement of Ca(2+)-Dependent Hyperpolarization in Sleep Duration in Mammals.

Review 6. Ca²⁺ -Dependent Hyperpolarization Pathways in Sleep Homeostasis and Mental Disorders.

7. Extracellular calcium modulates persistent sodium current-dependent burst-firing in hippocampal pyramidal neurons.

Review 8. The corticothalamic system in sleep.

9. Mania-like behavior induced by genetic dysfunction of the neuron-specific Na+,K+-ATPase α3 sodium pump.

10. Mammalian Reverse Genetics without Crossing Reveals Nr3a as a Short-Sleeper Gene.

1. Cortex-wide Changes in Extracellular Potassium Ions Parallel Brain State Transitions in Awake Behaving Mice.

2. Polynuclear Ruthenium Amines Inhibit K_2P Channels via a "Finger in the Dam" Mechanism.

3. The Polysite Pharmacology of TREK K_2P Channels.

4. Postnatal maturation of calcium signaling in islets of Langerhans from neonatal mice.

Review 5. Towards organism-level systems biology by next-generation genetics and whole-organ cell profiling.

Review 6. Recent advances in sleep genetics.

Review 7. Molecular Mechanisms of REM Sleep.

8. Abnormal Sleep Signals Vulnerability to Chronic Social Defeat Stress.

9. Enhanced cortical responsiveness during natural sleep in freely behaving mice.

Review 10. Structural Insights into the Mechanisms and Pharmacology of K_2P Potassium Channels.

Review 3. Hypothalamic regulation of sleep and circadian rhythms.

Review 4. Fast and slow Ca2+-dependent hyperpolarization mechanisms connect membrane potential and sleep homeostasis.

Review 6. Ca2+ -Dependent Hyperpolarization Pathways in Sleep Homeostasis and Mental Disorders.

Review 8. The corticothalamic system in sleep.

Review 5. Towards organism-level systems biology by next-generation genetics and whole-organ cell profiling.

Review 6. Recent advances in sleep genetics.

Review 7. Molecular Mechanisms of REM Sleep.

Review 10. Structural Insights into the Mechanisms and Pharmacology of K2P Potassium Channels.

Review 4. Fast and slow Ca²⁺-dependent hyperpolarization mechanisms connect membrane potential and sleep homeostasis.

Review 6. Ca²⁺ -Dependent Hyperpolarization Pathways in Sleep Homeostasis and Mental Disorders.

Review 10. Structural Insights into the Mechanisms and Pharmacology of K_2P Potassium Channels.