WIDE AWAKE mediates the circadian timing of sleep onset

Sha Liu; Angelique Lamaze; Qili Liu; Masashi Tabuchi; Yong Yang; Melissa Fowler; Rajnish Bharadwaj; Julia Zhang; Joseph Bedont; Seth Blackshaw; Thomas E. Lloyd; Craig Montell; Amita Sehgal; Kyunghee Koh; Mark N. Wu

doi:10.1016/j.neuron.2014.01.040

WIDE AWAKE mediates the circadian timing of sleep onset

Sha Liu, Angelique Lamaze, Qili Liu, Masashi Tabuchi, Yong Yang, Melissa Fowler, Rajnish Bharadwaj, Julia Zhang, Joseph Bedont, Seth Blackshaw, Thomas E. Lloyd, Craig Montell, Amita Sehgal, Kyunghee Koh, Mark N. Wu

Research output: Contribution to journal › Article › peer-review

108 Scopus citations

Abstract

How the circadian clock regulates the timing of sleep is poorly understood. Here, we identify a Drosophila mutant, wide awake (wake), that exhibits a marked delay in sleep onset at dusk. Loss of WAKE in a set of arousal-promoting clock neurons, the large ventrolateral neurons (l-LNvs), impairs sleep onset. WAKE levels cycle, peaking near dusk, and the expression of WAKE in l-LNvs is Clock dependent. Strikingly, Clock and cycle mutants also exhibit a profound delay in sleep onset, which can be rescued by restoring WAKE expression in LNvs. WAKE interacts with the GABA_A receptor Resistant to Dieldrin (RDL), upregulating its levels and promoting its localization to the plasma membrane. In wake mutant l-LNvs, GABA sensitivity is decreased and excitability is increased at dusk. We propose that WAKE acts as a clock output molecule specifically for sleep, inhibiting LNvs at dusk to promote the transition from wake to sleep.

Original language	English (US)
Pages (from-to)	151-166
Number of pages	16
Journal	Neuron
Volume	82
Issue number	1
DOIs	https://doi.org/10.1016/j.neuron.2014.01.040
State	Published - Apr 2 2014
Externally published	Yes

ASJC Scopus subject areas

General Neuroscience

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10.1016/j.neuron.2014.01.040

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title = "WIDE AWAKE mediates the circadian timing of sleep onset",

abstract = "How the circadian clock regulates the timing of sleep is poorly understood. Here, we identify a Drosophila mutant, wide awake (wake), that exhibits a marked delay in sleep onset at dusk. Loss of WAKE in a set of arousal-promoting clock neurons, the large ventrolateral neurons (l-LNvs), impairs sleep onset. WAKE levels cycle, peaking near dusk, and the expression of WAKE in l-LNvs is Clock dependent. Strikingly, Clock and cycle mutants also exhibit a profound delay in sleep onset, which can be rescued by restoring WAKE expression in LNvs. WAKE interacts with the GABAA receptor Resistant to Dieldrin (RDL), upregulating its levels and promoting its localization to the plasma membrane. In wake mutant l-LNvs, GABA sensitivity is decreased and excitability is increased at dusk. We propose that WAKE acts as a clock output molecule specifically for sleep, inhibiting LNvs at dusk to promote the transition from wake to sleep.",

author = "Sha Liu and Angelique Lamaze and Qili Liu and Masashi Tabuchi and Yong Yang and Melissa Fowler and Rajnish Bharadwaj and Julia Zhang and Joseph Bedont and Seth Blackshaw and Lloyd, {Thomas E.} and Craig Montell and Amita Sehgal and Kyunghee Koh and Wu, {Mark N.}",

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AU - Lamaze, Angelique

AU - Liu, Qili

AU - Tabuchi, Masashi

AU - Yang, Yong

AU - Fowler, Melissa

AU - Bharadwaj, Rajnish

AU - Zhang, Julia

AU - Bedont, Joseph

AU - Blackshaw, Seth

AU - Lloyd, Thomas E.

AU - Montell, Craig

AU - Sehgal, Amita

AU - Koh, Kyunghee

AU - Wu, Mark N.

PY - 2014/4/2

Y1 - 2014/4/2

N2 - How the circadian clock regulates the timing of sleep is poorly understood. Here, we identify a Drosophila mutant, wide awake (wake), that exhibits a marked delay in sleep onset at dusk. Loss of WAKE in a set of arousal-promoting clock neurons, the large ventrolateral neurons (l-LNvs), impairs sleep onset. WAKE levels cycle, peaking near dusk, and the expression of WAKE in l-LNvs is Clock dependent. Strikingly, Clock and cycle mutants also exhibit a profound delay in sleep onset, which can be rescued by restoring WAKE expression in LNvs. WAKE interacts with the GABAA receptor Resistant to Dieldrin (RDL), upregulating its levels and promoting its localization to the plasma membrane. In wake mutant l-LNvs, GABA sensitivity is decreased and excitability is increased at dusk. We propose that WAKE acts as a clock output molecule specifically for sleep, inhibiting LNvs at dusk to promote the transition from wake to sleep.

AB - How the circadian clock regulates the timing of sleep is poorly understood. Here, we identify a Drosophila mutant, wide awake (wake), that exhibits a marked delay in sleep onset at dusk. Loss of WAKE in a set of arousal-promoting clock neurons, the large ventrolateral neurons (l-LNvs), impairs sleep onset. WAKE levels cycle, peaking near dusk, and the expression of WAKE in l-LNvs is Clock dependent. Strikingly, Clock and cycle mutants also exhibit a profound delay in sleep onset, which can be rescued by restoring WAKE expression in LNvs. WAKE interacts with the GABAA receptor Resistant to Dieldrin (RDL), upregulating its levels and promoting its localization to the plasma membrane. In wake mutant l-LNvs, GABA sensitivity is decreased and excitability is increased at dusk. We propose that WAKE acts as a clock output molecule specifically for sleep, inhibiting LNvs at dusk to promote the transition from wake to sleep.

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WIDE AWAKE mediates the circadian timing of sleep onset

Abstract

ASJC Scopus subject areas

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