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      Sleep and the price of plasticity: from synaptic and cellular homeostasis to memory consolidation and integration.

      Neuron
      Animals, Brain, cytology, physiology, Homeostasis, Humans, Learning, Neuronal Plasticity, Sleep, Synapses

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          Abstract

          Sleep is universal, tightly regulated, and its loss impairs cognition. But why does the brain need to disconnect from the environment for hours every day? The synaptic homeostasis hypothesis (SHY) proposes that sleep is the price the brain pays for plasticity. During a waking episode, learning statistical regularities about the current environment requires strengthening connections throughout the brain. This increases cellular needs for energy and supplies, decreases signal-to-noise ratios, and saturates learning. During sleep, spontaneous activity renormalizes net synaptic strength and restores cellular homeostasis. Activity-dependent down-selection of synapses can also explain the benefits of sleep on memory acquisition, consolidation, and integration. This happens through the offline, comprehensive sampling of statistical regularities incorporated in neuronal circuits over a lifetime. This Perspective considers the rationale and evidence for SHY and points to open issues related to sleep and plasticity. Copyright © 2014 Elsevier Inc. All rights reserved.

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          Author and article information

          Journal
          24411729
          3921176
          10.1016/j.neuron.2013.12.025

          Chemistry
          Animals,Brain,cytology,physiology,Homeostasis,Humans,Learning,Neuronal Plasticity,Sleep,Synapses
          Chemistry
          Animals, Brain, cytology, physiology, Homeostasis, Humans, Learning, Neuronal Plasticity, Sleep, Synapses

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