生理时钟基因Per2在全身的缺失,而不是在神经元或星形胶质细胞,影响睡眠对睡眠剥夺的反应。

IF 2.1 Q3 CLINICAL NEUROLOGY
Katrin S Wendrich, Hamid Azimi, Jürgen A Ripperger, Yann Ravussin, Gregor Rainer, Urs Albrecht
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引用次数: 0

摘要

睡眠-觉醒周期是一种高度调节的行为,生物钟调节睡眠和清醒,而体内平衡过程控制睡眠需求。生物钟和睡眠平衡器都是相互作用的,但它们相互影响的程度尚不清楚。有证据表明,生物钟基因,特别是周期2 (Per2),可能与睡眠稳态过程有关。睡眠调节还依赖于神经元和星形胶质细胞的正常功能,这是大脑中代谢相互依赖的两种细胞类型。为了研究生物钟对睡眠调节的影响,我们对星形胶质细胞、神经元或所有体细胞中缺乏Per2基因的小鼠的睡眠进行了无创测量。我们观察到,在所有体细胞中缺乏Per2的小鼠(Per2Brdm和TPer2动物)在睡眠剥夺(SD)后表现出更早的睡眠开始,而在神经元和星形胶质细胞中敲除Per2的动物(分别为NPer2和GPer2)在这方面正常。似乎全身Per2的表达对通过睡眠次数和睡眠时间表达的生理睡眠结构很重要,而神经元和星形胶质细胞的Per2对夜间睡眠量的影响较小。我们的研究结果表明,Per2通过延迟SD后的睡眠发作和减弱早期夜间反弹反应,有助于调节稳态睡眠反应的时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Deletion of the Circadian Clock Gene <i>Per2</i> in the Whole Body, but Not in Neurons or Astroglia, Affects Sleep in Response to Sleep Deprivation.

Deletion of the Circadian Clock Gene <i>Per2</i> in the Whole Body, but Not in Neurons or Astroglia, Affects Sleep in Response to Sleep Deprivation.

Deletion of the Circadian Clock Gene <i>Per2</i> in the Whole Body, but Not in Neurons or Astroglia, Affects Sleep in Response to Sleep Deprivation.

Deletion of the Circadian Clock Gene Per2 in the Whole Body, but Not in Neurons or Astroglia, Affects Sleep in Response to Sleep Deprivation.

The sleep-wake cycle is a highly regulated behavior in which a circadian clock times sleep and waking, whereas a homeostatic process controls sleep need. Both the clock and the sleep homeostat interact, but to what extent they influence each other is not understood. There is evidence that clock genes, in particular Period2 (Per2), might be implicated in the sleep homeostatic process. Sleep regulation depends also on the proper functioning of neurons and astroglial cells, two cell-types in the brain that are metabolically dependent on each other. In order to investigate clock-driven contributions to sleep regulation we non-invasively measured sleep of mice that lack the Per2 gene either in astroglia, neurons, or all body cells. We observed that mice lacking Per2 in all body cells (Per2Brdm and TPer2 animals) display earlier onset of sleep after sleep deprivation (SD), whereas neuronal and astroglial Per2 knock-out animals (NPer2 and GPer2, respectively) were normal in that respect. It appears that systemic (whole body) Per2 expression is important for physiological sleep architecture expressed by number and length of sleep bouts, whereas neuronal and astroglial Per2 weakly impacts night-time sleep amount. Our results suggest that Per2 contributes to the timing of the regulatory homeostatic sleep response by delaying sleep onset after SD and attenuating the early night rebound response.

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来源期刊
Clocks & Sleep
Clocks & Sleep Multiple-
CiteScore
4.40
自引率
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审稿时长
7 weeks
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