慢性睡眠限制期间睡眠困意与睡眠时间和强度的解偶联：腺苷系统的作用证据。

Decoupling of sleepiness from sleep time and intensity during chronic sleep restriction: evidence for a role of the adenosine system.

机构信息

VA Boston Healthcare System, Research Service and Harvard Medical School, Department of Psychiatry, Brockton, MA 02301-5596, USA.

出版信息

Sleep. 2012 Jun 1;35(6):861-9. doi: 10.5665/sleep.1890.

DOI:10.5665/sleep.1890

PMID:22654205

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3353031/

Abstract

STUDY OBJECTIVE

Sleep responses to chronic sleep restriction (CSR) might be very different from those observed after short-term total sleep deprivation. For example, after sleep restriction continues for several consecutive days, animals no longer express compensatory increases in daily sleep time and sleep intensity. However, it is unknown if these allostatic, or adaptive, sleep responses to CSR are paralleled by behavioral and neurochemical measures of sleepiness.

DESIGN

This study was designed to investigate CSR-induced changes in (1) sleep time and intensity as a measure of electrophysiological sleepiness, (2) sleep latency as a measure of behavioral sleepiness, and (3) brain adenosine A1 (A1R) and A2a receptor (A2aR) mRNA levels as a putative neurochemical correlate of sleepiness.

SUBJECTS

Male Sprague-Dawley rats

INTERVENTIONS

A 5-day sleep restriction (SR) protocol consisting of 18-h sleep deprivation and 6-h sleep opportunity each day.

MEASUREMENT AND RESULTS

Unlike the first SR day, rats did not sleep longer or deeper on days 2 through 5, even though they exhibited significant elevations of behavioral sleepiness throughout all 5 SR days. For all SR days and recovery day 1, A1R mRNA in the basal forebrain was maintained at elevated levels, whereas A2aR mRNA in the frontal cortex was maintained at reduced levels.

CONCLUSION

CSR LEADS TO A DECOUPLING OF SLEEPINESS FROM SLEEP TIME AND SLEEP INTENSITY, SUGGESTING THAT THERE ARE AT LEAST TWO DIFFERENT SLEEP REGULATORY SYSTEMS: one mediating sleepiness (homeostatic) and the other mediating sleep time/intensity (allostatic). The time course of changes observed in adenosine receptor mRNA levels suggests that the basal forebrain and cortical adenosine system might mediate sleepiness rather than sleep time or intensity.

摘要

研究目的

慢性睡眠限制（CSR）引起的睡眠反应可能与短期完全睡眠剥夺观察到的反应非常不同。例如，在睡眠限制连续数天后，动物不再表现出每日睡眠时间和睡眠强度的代偿性增加。然而，尚不清楚这些对 CSR 的适应或适应性睡眠反应是否与睡眠困意的行为和神经化学测量相平行。

设计

本研究旨在研究 CSR 引起的以下变化：（1）睡眠时间和强度作为电生理学睡眠困意的测量，（2）睡眠潜伏期作为行为睡眠困意的测量，以及（3）脑腺苷 A1（A1R）和 A2a 受体（A2aR）mRNA 水平作为睡眠困意的潜在神经化学相关性。

受试者

雄性 Sprague-Dawley 大鼠

干预措施

为期 5 天的睡眠限制（SR）方案，包括每天 18 小时剥夺睡眠和 6 小时睡眠机会。

测量和结果

与第一天 SR 不同，大鼠在第 2 至 5 天睡眠时间没有更长或更深，尽管它们在所有 5 天的 SR 期间都表现出明显的行为睡眠困意增加。对于所有 SR 天和恢复第 1 天，基底前脑的 A1R mRNA 保持在升高水平，而前额皮质的 A2aR mRNA 保持在降低水平。

结论

CSR 导致睡眠困意与睡眠时间和睡眠强度脱钩，表明至少存在两种不同的睡眠调节系统：一种调节睡眠困意（稳态），另一种调节睡眠时间/强度（适应）。观察到的腺苷受体 mRNA 水平变化的时间过程表明，基底前脑和皮质腺苷系统可能调节睡眠困意，而不是睡眠时间或强度。

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