Essential Role of Dopamine D<sub>2</sub>Receptor in the Maintenance of Wakefulness, But Not in Homeostatic Regulation of Sleep, in Mice

Qu, Wei‐Min; Xu, Xiaohong; Yan, Mingming; Wang, Yi-Qun; Urade, Yoshihiro; Huang, Zhi‐Li

doi:10.1523/jneurosci.4936-09.2010

Cited by 171 publications

(122 citation statements)

References 40 publications

(44 reference statements)

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“…Recent pharmacological and gene-targeting studies suggest possible mechanisms involved. Dopamine antagonists inhibit the sleep latency increase caused by cage changes (23). Similarly, dopamine D2 receptor knockout mice do not exhibit longer sleep latencies after exposure to new environments (23,24).…”

Section: Discussionmentioning

confidence: 98%

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Behavioral and biochemical dissociation of arousal and homeostatic sleep need influenced by prior wakeful experience in mice

Suzuki

Sinton²,

Greene

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Sleep is regulated by homeostatic mechanisms, and the low-frequency power in the electroencephalogram (delta power) during nonrapid eye movement sleep reflects homeostatic sleep need. Additionally, sleep is limited by circadian and environmentally influenced arousal. Little is known, however, about the underlying neural substrates for sleep homeostasis and arousal and about the potential link between them. Here, we subjected C57BL/6 mice to 6 h of sleep deprivation using two different methods: gentle handling and continual cage change. Both groups were deprived of sleep to a similar extent (>99%), and, as expected, the delta power increase during recovery sleep was quantitatively similar in both groups. However, in a multiple sleep latency test, the cage change group showed significantly longer sleep latencies than the gentle handling group, indicating that the cage change group had a higher level of arousal despite the similar sleep loss. To investigate the possible biochemical correlates of these behavioral changes, we screened for arousal-related and sleep needrelated phosphoprotein markers from the diencephalon. We found that the abundance of highly phosphorylated forms of dynamin 1, a presynaptic neuronal protein, was associated with sleep latency in the multiple sleep latency test. In contrast, the abundance of highly phosphorylated forms of N-myc downstream regulated gene 2, a glial protein, was increased in parallel with delta power. The changes of these protein species disappeared after 2 h of recovery sleep. These results suggest that homeostatic sleep need and arousal can be dissociated behaviorally and biochemically and that phosphorylated N-myc downstream regulated gene 2 and dynamin 1 may serve as markers of homeostatic sleep need and arousal, respectively. phosphoproteomics | two-dimensional difference gel electrophoresis S leep-wakefulness is continuously regulated by circadian and homeostatic mechanisms. In addition, multiple factors affect the level of arousal, including emotional, environmental, and physiological influences (1). During non-rapid eye movement (NREM) sleep, the homeostatic sleep need is correlated with the power in the delta wave band (i.e., 1-4 Hz) in the electroencephalogram (EEG). Delta power is augmented in proportion to previous wakefulness time and is dissipated during sleep. These findings imply that homeostatic sleep need is regulated by the durations of prior sleep and wakefulness (2). On the other hand, the level of arousal is inversely related to the likelihood of falling asleep and can be measured in terms of the sleep latency in the multiple sleep latency test (MSLT) (3). Because prolonged waking increases sleep need in addition to lowering the level of arousal, sleep latency often varies inversely with EEG delta power expressed during sleep (3). However, the level of arousal can be affected independently of time spent awake (for example, with stressful or exciting experiences during waking), implying that, under conditions of identical sleep deprivation time, the s...

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Section: Discussionmentioning

confidence: 98%

“…Dopamine antagonists inhibit the sleep latency increase caused by cage changes (23). Similarly, dopamine D2 receptor knockout mice do not exhibit longer sleep latencies after exposure to new environments (23,24). Furthermore, mice with histamine deficiency also fail to exhibit prolonged sleep latencies during CC manipulation (25).…”

Section: Discussionmentioning

confidence: 99%

Behavioral and biochemical dissociation of arousal and homeostatic sleep need influenced by prior wakeful experience in mice

Suzuki

Sinton²,

Greene

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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“…24) Dopamine D 2 receptor, which is co-expressed with the adenosine A 2A receptor, was also reported to play a role in the maintenance of wakefulness after caffeine administation. 24,25) In contrast, ephedrine alkaloids are known to express their pharmacological actions via the α-and β-adrenergic receptors, and are reported to induce release of endogenous catecholamines, such as noradrenaline and dopamine, indirectly and to prevent their neuronal reuptake. 26) Noradrenaline is one of the most abundant neurotransmitters in the central and peripheral nervous systems, and is implicated in many aspects of physiology and behavior, including cognition, attention, reward, locomotion, and arousal.…”

Section: Discussionmentioning

confidence: 99%

Ephedrine Alkaloids-Free Ephedra Herb Extract, EFE, Has No Adverse Effects Such as Excitation, Insomnia, and Arrhythmias

Takemoto

Takahashi

Hyuga

et al. 2018

Biological & Pharmaceutical Bulletin

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Ephedrine alkaloids-free Ephedra Herb extract (EFE) has been developed to eliminate the adverse effects caused by ephedrine alkaloid-induced sympathetic hyperactivation. Previously, we reported that EFE possesses analgesic, anti-influenza, and cancer metastatic inhibitory effects at comparable levels to that of Ephedra Herb extract (EHE). However, it has not yet been demonstrated that EFE is free from the known side effects of EHE, such as excitation, insomnia, and arrhythmias. In this study, the incidence of these adverse effects was compared between mice administered EHE and those administered EFE. Increased locomotor activity in an open-field test, reduced immobility times in a forced swim test, and reduced sleep times in a pentobarbital-induced sleep test were observed in EHE-treated mice, when compared to the corresponding values in vehicle-treated mice. In contrast, EFE had no obvious effects in these tests. In electrocardiograms, atrial fibrillation (i.e., irregular heart rhythm, absence of P waves, and appearance of f waves) was observed in the EHE-treated mice. It was suggested that this atrial fibrillation was induced by stimulation of adrenaline β 1 receptors, but not by hypokalemia. However, EFE did not affect cardiac electrophysiology. These results suggest that the abovementioned side effects are caused by ephedrine alkaloids in EHE, and that EFE is free from these adverse effects, such as excitation, insomnia, and arrhythmias. Thus, EFE is a promising new botanical drug with few adverse effects.

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“…The EEG/EMG signals were amplified and filtered (EEG,EMG,, then digitized at a sampling rate of 128 Hz and recorded using SLEEPSIGN software (KISSEI COMTEC CO., LTD. Japan) as described elsewhere (Qu et al, 2008(Qu et al, , 2010. The vigilance states were automatically classified offline in 4-second epochs into rapid eye movement (REM) sleep, NREM sleep, and wakefulness by SLEEPSIGN, according to the standard criteria .…”

Section: Vigilance State Analysismentioning

confidence: 99%

Paeoniflorin Promotes Non-rapid Eye Movement Sleep via Adenosine A1 Receptors

Chen

Sun

Luo

et al. 2015

Journal of Pharmacology and Experimental Therapeutics

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Paeoniflorin (PF, C 23 H 28 O 11 ), one of the principal active ingredients of Paeonia Radix, exerts depressant effects on the central nervous system. We determined whether PF could modulate sleep behaviors and the mechanisms involved. Electroencephalogram and electromyogram recordings in mice showed that intraperitoneal PF administered at a dose of 25 or 50 mg/kg significantly shortened the sleep latency and increased the amount of non-rapid eye movement (NREM). Immunohistochemical study revealed that PF decreased c-fos expression in the histaminergic tuberomammillary nucleus (TMN). The sleep-promoting effects and changes in c-fos induced by PF were reversed by 8-cyclopentyl-1,3-dimethylxanthine (CPT), an adenosine A 1 receptor antagonist, and PF-induced sleep was not observed in adenosine A 1 receptor knockout mice. Whole-cell patch clamping in mouse brain slices showed that PF significantly decreased the firing frequency of histaminergic neurons in TMN, which could be completely blocked by CPT. These results indicate that PF increased NREM sleep by inhibiting the histaminergic system via A 1 receptors.

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Essential Role of Dopamine D₂Receptor in the Maintenance of Wakefulness, But Not in Homeostatic Regulation of Sleep, in Mice

Cited by 171 publications

References 40 publications

Behavioral and biochemical dissociation of arousal and homeostatic sleep need influenced by prior wakeful experience in mice

Behavioral and biochemical dissociation of arousal and homeostatic sleep need influenced by prior wakeful experience in mice

Ephedrine Alkaloids-Free Ephedra Herb Extract, EFE, Has No Adverse Effects Such as Excitation, Insomnia, and Arrhythmias

Paeoniflorin Promotes Non-rapid Eye Movement Sleep via Adenosine A1 Receptors

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Essential Role of Dopamine D2Receptor in the Maintenance of Wakefulness, But Not in Homeostatic Regulation of Sleep, in Mice

Cited by 171 publications

References 40 publications

Behavioral and biochemical dissociation of arousal and homeostatic sleep need influenced by prior wakeful experience in mice

Behavioral and biochemical dissociation of arousal and homeostatic sleep need influenced by prior wakeful experience in mice

Ephedrine Alkaloids-Free Ephedra Herb Extract, EFE, Has No Adverse Effects Such as Excitation, Insomnia, and Arrhythmias

Paeoniflorin Promotes Non-rapid Eye Movement Sleep via Adenosine A1 Receptors

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Essential Role of Dopamine D₂Receptor in the Maintenance of Wakefulness, But Not in Homeostatic Regulation of Sleep, in Mice