星形胶质细胞的钙信号在睡眠期间减弱，并且参与慢波睡眠的调节。

Astrocytic Ca signaling is reduced during sleep and is involved in the regulation of slow wave sleep.

机构信息

Letten Centre and GliaLab, Division of Physiology, Department of Molecular Medicine, Institute of Basic Medical Sciences, University of Oslo, 0317, Oslo, Norway.

Statistics and Data Science group, Department of Mathematics, Faculty of Mathematics and Natural Sciences, University of Oslo, 0316, Oslo, Norway.

出版信息

Nat Commun. 2020 Jul 6;11(1):3240. doi: 10.1038/s41467-020-17062-2.

DOI:10.1038/s41467-020-17062-2

PMID:32632168

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7338360/

Abstract

Astrocytic Ca signaling has been intensively studied in health and disease but has not been quantified during natural sleep. Here, we employ an activity-based algorithm to assess astrocytic Ca signals in the neocortex of awake and naturally sleeping mice while monitoring neuronal Ca activity, brain rhythms and behavior. We show that astrocytic Ca signals exhibit distinct features across the sleep-wake cycle and are reduced during sleep compared to wakefulness. Moreover, an increase in astrocytic Ca signaling precedes transitions from slow wave sleep to wakefulness, with a peak upon awakening exceeding the levels during whisking and locomotion. Finally, genetic ablation of an important astrocytic Ca signaling pathway impairs slow wave sleep and results in an increased number of microarousals, abnormal brain rhythms, and an increased frequency of slow wave sleep state transitions and sleep spindles. Our findings demonstrate an essential role for astrocytic Ca signaling in regulating slow wave sleep.

摘要

星形胶质细胞的 Ca 信号在健康和疾病中得到了深入研究，但在自然睡眠期间并未被量化。在这里，我们采用基于活性的算法来评估清醒和自然睡眠小鼠大脑皮层中的星形胶质细胞 Ca 信号，同时监测神经元 Ca 活性、脑节律和行为。我们发现星形胶质细胞 Ca 信号在睡眠-觉醒周期中表现出不同的特征，并且在睡眠期间比觉醒时减少。此外，星形胶质细胞 Ca 信号的增加先于从慢波睡眠到觉醒的转变，在觉醒时达到峰值，超过了胡须和运动时的水平。最后，重要的星形胶质细胞 Ca 信号通路的基因缺失会损害慢波睡眠，并导致微觉醒次数增加、脑节律异常以及慢波睡眠状态转变和睡眠纺锤波的频率增加。我们的研究结果表明，星形胶质细胞 Ca 信号在调节慢波睡眠中起着重要作用。

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星形胶质细胞的钙信号在睡眠期间减弱，并且参与慢波睡眠的调节。

Astrocytic Ca signaling is reduced during sleep and is involved in the regulation of slow wave sleep.

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