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Literature DB >> 33232655

Sleep Promotes Downward Firing Rate Homeostasis.

Alejandro Torrado Pacheco¹, Juliet Bottorff¹, Ya Gao¹, Gina G Turrigiano².

Abstract

Homeostatic plasticity is hypothesized to bidirectionally regulate neuronal activity around a stable set point to compensate for learning-related plasticity, but to date only upward firing rate homeostasis (FRH) has been demonstrated in vivo. We combined chronic electrophysiology in freely behaving animals with an eye-reopening paradigm to enhance firing in primary visual cortex (V1) and found that neurons bidirectionally regulate firing rates around an individual set point. Downward FRH did not require N-methyl-D-aspartate receptor (NMDAR) signaling and was associated with homeostatic scaling down of synaptic strengths. Like upward FRH, downward FRH was gated by arousal state but in the opposite direction: it occurred during sleep, not during wake. In contrast, firing rate depression associated with Hebbian plasticity happened independently of sleep and wake. Thus, sleep and wake states temporally segregate upward and downward FRH, which might prevent interference or provide unopposed homeostatic compensation when it is needed most.

Entities: Chemical

Keywords: Experience-dependent plasticity; Firing rate homeostasis; Homeostatic plasticity; Sleep; Synaptic scaling; Visual system

Mesh：

Substances：

Year: 2020 PMID： 33232655 PMCID： PMC7864886 DOI： 10.1016/j.neuron.2020.11.001

Source DB: PubMed Journal: Neuron ISSN： 0896-6273 Impact factor: 18.688

68 in total

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Review 3. Multiple shared mechanisms for homeostatic plasticity in rodent somatosensory and visual cortex.

Authors: Melanie A Gainey; Daniel E Feldman
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4. REM sleep selectively prunes and maintains new synapses in development and learning.

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5. Activity-dependent scaling of quantal amplitude in neocortical neurons.

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8. Synaptic scaling in combination with many generic plasticity mechanisms stabilizes circuit connectivity.

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10. Acetylcholine contributes through muscarinic receptors to attentional modulation in V1.

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