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清醒和睡眠状态下下丘脑分泌素(食欲素)的释放。

Release of hypocretin (orexin) during waking and sleep states.

作者信息

Kiyashchenko Lyudmila I, Mileykovskiy Boris Y, Maidment Nigel, Lam Hoa A, Wu Ming-Fung, John Joshi, Peever John, Siegel Jerome M

机构信息

Department of Psychiatry and Biobehavioral Sciences and Brain Research Institute, University of California Los Angeles School of Medicine, North Hills, California 91343, USA.

出版信息

J Neurosci. 2002 Jul 1;22(13):5282-6. doi: 10.1523/JNEUROSCI.22-13-05282.2002.

DOI:10.1523/JNEUROSCI.22-13-05282.2002
PMID:12097478
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6758234/
Abstract

Hypocretin (Hcrt or orexin) somas are located in the hypothalamus and project widely to forebrain and brainstem regions, densely innervating monoaminergic and cholinergic cells. Loss of Hcrt function results in the sleep disorder narcolepsy. However, the normal pattern of Hcrt release across the sleep-wake cycle is unknown. We monitored Hcrt-1 release in the basal forebrain, perifornical hypothalamus, and locus ceruleus (LC) across the sleep-wake cycle using microdialysis in freely moving cats and a sensitive solid phase radioimmunoassay. We found that the peptide concentration in dialysates from the hypothalamus was significantly higher during active waking (AW) than during slow-wave sleep (SWS). Moreover, Hcrt-1 release was significantly higher during rapid eye movement (REM) sleep than during SWS in the hypothalamus and basal forebrain. We did not detect a significant difference in release across sleep-waking states in the LC, perhaps because recovered levels of the peptide were lower at this site. Because there was a trend toward higher levels of Hcrt-1 release during AW compared with quiet waking (QW) in our 10 min dialysis samples, we compared Hcrt-1 levels in CSF in 2 hr AW and QW periods. Hcrt-1 release into CSF was 67% higher during AW than during QW. Elevated levels of Hcrt during REM sleep and AW are consistent with a role for Hcrt in the central programming of motor activity.

摘要

下丘脑分泌素(Hcrt 或食欲素)的细胞体位于下丘脑,并广泛投射到前脑和脑干区域,密集支配单胺能和胆碱能细胞。下丘脑分泌素功能丧失会导致发作性睡病这一睡眠障碍。然而,下丘脑分泌素在整个睡眠 - 觉醒周期中的正常释放模式尚不清楚。我们使用微透析技术,在自由活动的猫身上,结合灵敏的固相放射免疫测定法,监测了整个睡眠 - 觉醒周期中基底前脑、穹窿周下丘脑和蓝斑(LC)中下丘脑分泌素 -1 的释放情况。我们发现,下丘脑透析液中的肽浓度在主动觉醒(AW)期间显著高于慢波睡眠(SWS)期间。此外,下丘脑和基底前脑中,快速眼动(REM)睡眠期间的下丘脑分泌素 -1 释放量显著高于慢波睡眠期间。我们未检测到蓝斑在不同睡眠 - 觉醒状态下的释放存在显著差异,这可能是因为该部位肽的回收水平较低。由于在我们 10 分钟的透析样本中,主动觉醒期间下丘脑分泌素 -1 的释放水平有高于安静觉醒(QW)的趋势,我们比较了 2 小时主动觉醒和安静觉醒期间脑脊液中的下丘脑分泌素 -1 水平。主动觉醒期间脑脊液中的下丘脑分泌素 -1 释放量比安静觉醒期间高 67%。快速眼动睡眠和主动觉醒期间下丘脑分泌素水平升高与下丘脑分泌素在运动活动的中枢编程中的作用一致。

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