Litcius/Paper detail

Paradoxical somatodendritic decoupling supports cortical plasticity during REM sleep

Mattia Aime, Niccolò Calcini, Micaela Borsa, Tiago Campelo, Thomas Rusterholz, Andrea Sattin, Tommaso Fellin, Antoine Adamantidis

2022Science109 citationsDOIOpen Access PDF

Abstract

Rapid eye movement (REM) sleep is associated with the consolidation of emotional memories. Yet, the underlying neocortical circuits and synaptic mechanisms remain unclear. We found that REM sleep is associated with a somatodendritic decoupling in pyramidal neurons of the prefrontal cortex. This decoupling reflects a shift of inhibitory balance between parvalbumin neuron-mediated somatic inhibition and vasoactive intestinal peptide-mediated dendritic disinhibition, mostly driven by neurons from the central medial thalamus. REM-specific optogenetic suppression of dendritic activity led to a loss of danger-versus-safety discrimination during associative learning and a lack of synaptic plasticity, whereas optogenetic release of somatic inhibition resulted in enhanced discrimination and synaptic potentiation. Somatodendritic decoupling during REM sleep promotes opposite synaptic plasticity mechanisms that optimize emotional responses to future behavioral stressors.

Topics & Concepts

NeuroscienceOptogeneticsNeuroscience of sleepSynaptic plasticityMemory consolidationNon-rapid eye movement sleepDisinhibitionPsychologyInhibitory postsynaptic potentialFear conditioningSleep spindleBiologyEye movementAmygdalaHippocampusReceptorBiochemistrySleep and Wakefulness ResearchCircadian rhythm and melatoninNeuroscience and Neuropharmacology Research