跨越清醒/睡眠周期的突触缩放的超微结构证据。

Ultrastructural evidence for synaptic scaling across the wake/sleep cycle.

作者信息

de Vivo Luisa, Bellesi Michele, Marshall William, Bushong Eric A, Ellisman Mark H, Tononi Giulio, Cirelli Chiara

机构信息

Department of Psychiatry, University of Wisconsin-Madison, 6001 Research Park Boulevard, Madison, WI 53719, USA.

Department of Experimental and Clinical Medicine, Section of Neuroscience and Cell Biology, Università Politecnica delle Marche, Ancona, Italy.

出版信息

Science. 2017 Feb 3;355(6324):507-510. doi: 10.1126/science.aah5982.

DOI:10.1126/science.aah5982

PMID:28154076

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5313037/

Abstract

It is assumed that synaptic strengthening and weakening balance throughout learning to avoid runaway potentiation and memory interference. However, energetic and informational considerations suggest that potentiation should occur primarily during wake, when animals learn, and depression should occur during sleep. We measured 6920 synapses in mouse motor and sensory cortices using three-dimensional electron microscopy. The axon-spine interface (ASI) decreased 18% after sleep compared with wake. This decrease was proportional to ASI size, which is indicative of scaling. Scaling was selective, sparing synapses that were large and lacked recycling endosomes. Similar scaling occurred for spine head volume, suggesting a distinction between weaker, more plastic synapses (80%) and stronger, more stable synapses. These results support the hypothesis that a core function of sleep is to renormalize overall synaptic strength increased by wake.

摘要

据推测，在整个学习过程中，突触的增强和减弱保持平衡，以避免过度增强和记忆干扰。然而，从能量和信息的角度考虑，增强作用应主要发生在动物学习的清醒状态，而减弱作用应发生在睡眠期间。我们使用三维电子显微镜测量了小鼠运动和感觉皮层中的6920个突触。与清醒状态相比，睡眠后轴突-棘突界面（ASI）减少了约18%。这种减少与ASI的大小成比例，这表明存在缩放现象。缩放是选择性的，较大且缺乏循环内体的突触得以保留。棘突头部体积也出现了类似的缩放现象，这表明较弱、可塑性更强的突触（约80%）与较强、更稳定的突触之间存在差异。这些结果支持了这样一种假设，即睡眠的核心功能是使清醒状态下增加的整体突触强度恢复正常。

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