睡眠压力调节果蝇蘑菇体神经-胶质相互作用。

Matters select Pub Date : 2019-01-01 Epub Date: 2019-03-22 DOI:10.19185/matters.201903000008
William M Vanderheyden, Hans P A Van Dongen, Marcos G Frank, Jason R Gerstner
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引用次数: 5

摘要

睡眠是一种广泛存在于动物门的行为,从苍蝇到人类,对正常的大脑功能是必要的。最近对脊椎动物和无脊椎动物的研究表明,神经胶质细胞在睡眠调节过程中起作用。神经-胶质相互作用的变化已被证明是突触可塑性和电路功能的关键。在这里,我们想测试睡眠压力的变化会改变神经胶质相互作用的假设。在果蝇(Drosophila melanogaster)中,睡眠是由蘑菇体(MB)回路调节的。我们使用跨突触伙伴GFP重构技术(GRASP)来测试睡眠压力的变化是否会影响MB神经元和星形胶质细胞之间的神经-胶质相互作用,星形胶质细胞是一种已知调节果蝇和哺乳动物睡眠的特殊胶质细胞类型。24小时的睡眠剥夺后,mb -星形胶质细胞的GRASP信号减少,而在72小时的睡眠剥夺后,该信号恢复到基线水平。社交活动增加了睡眠动力,同样减少了mb -星形胶质细胞的GRASP信号。我们没有观察到mb -星形胶质细胞GRASP信号随时间的变化,也没有观察到百草枯暴露或饥饿后的变化。这些数据表明,睡眠压力的变化与星形胶质细胞和神经元睡眠回路之间的神经胶质相互作用的动态变化有关,而这种变化不是由正常的休息-活动周期或压力源引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sleep pressure regulates mushroom body neural-glial interactions in Drosophila.

Sleep pressure regulates mushroom body neural-glial interactions in Drosophila.

Sleep is a behavior that exists broadly across animal phyla, from flies to humans, and is necessary for normal brain function. Recent studies in both vertebrates and invertebrates have suggested a role for glial cells in sleep regulatory processes. Changes in neural-glial interactions have been shown to be critical for synaptic plasticity and circuit function. Here, we wanted to test the hypothesis that changes in sleep pressure alters neural-glial interactions. In the fruit fly, Drosophila melanogaster, sleep is known to be regulated by mushroom body (MB) circuits. We used the technique GFP Reconstitution Across Synaptic Partners (GRASP) to test whether changes in sleep pressure affect neural-glial interactions between MB neurons and astrocytes, a specialized glial cell type known to regulate sleep in flies and mammals. The MB-astrocyte GRASP signal was reduced after 24 h of sleep deprivation, whereas the signal returned to baseline levels following 72 h of recovery. Social enrichment, which increases sleep drive, similarly reduced the MB-astrocyte GRASP signal. We did not observe any changes in the MB-astrocyte GRASP signal over time-of-day, or following paraquat exposure or starvation. These data suggest that changes in sleep pressure are linked to dynamic changes in neural-glial interactions between astrocytes and neuronal sleep circuits, which are not caused by normal rest-activity cycles or stressors.

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