椭圆囊体睡眠稳态的昼夜节律编程。

Circadian programming of the ellipsoid body sleep homeostat in .

机构信息

Department of Neurobiology, Northwestern University, Evanston, United States.

Department of Engineering Sciences and Applied Mathematics, Northwestern University, Evanston, United States.

出版信息

Elife. 2022 Jun 23;11:e74327. doi: 10.7554/eLife.74327.

DOI:10.7554/eLife.74327

PMID:35735904

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9270026/

Abstract

Homeostatic and circadian processes collaborate to appropriately time and consolidate sleep and wake. To understand how these processes are integrated, we scheduled brief sleep deprivation at different times of day in and find elevated morning rebound compared to evening. These effects depend on discrete morning and evening clock neurons, independent of their roles in circadian locomotor activity. In the R5 ellipsoid body sleep homeostat, we identified elevated morning expression of activity dependent and presynaptic gene expression as well as the presynaptic protein BRUCHPILOT consistent with regulation by clock circuits. These neurons also display elevated calcium levels in response to sleep loss in the morning, but not the evening consistent with the observed time-dependent sleep rebound. These studies reveal the circuit and molecular mechanisms by which discrete circadian clock neurons program a homeostatic sleep center.

摘要

内稳态和昼夜节律过程共同作用，以适当的时间和巩固睡眠和觉醒。为了了解这些过程是如何整合的，我们在一天中的不同时间安排了短暂的睡眠剥夺，并发现与晚上相比，早晨的反弹更高。这些效应取决于离散的早晨和晚上时钟神经元，而不依赖于它们在昼夜节律运动活动中的作用。在 R5 椭圆体睡眠稳态中，我们发现活性依赖性和突触前基因表达以及突触前蛋白 BRUCHPILOT 的早晨表达升高，这与时钟电路的调节一致。这些神经元在早晨而非晚上对睡眠缺失的反应中也表现出更高的钙水平，这与观察到的时间依赖性睡眠反弹一致。这些研究揭示了离散的昼夜节律时钟神经元编程一个稳态睡眠中心的电路和分子机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d4b5/9270026/a94f4b04805a/elife-74327-fig1.jpg

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椭圆囊体睡眠稳态的昼夜节律编程。

Circadian programming of the ellipsoid body sleep homeostat in .

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