Litcius/Paper detail

Sleep need–dependent plasticity of a thalamic circuit promotes homeostatic recovery sleep

Sang‐Soo Lee, Qiang Liu, Alexandra Cheng, Dong Won Kim, Daphne M. Boudreau, Anuradha Mehta, Mehmet F. Keleş, Rafal Fejfer, Isabelle Palmer, Kristen Park, Heike Münzberg, T.D. Harris, Austin R. Graves, Seth Blackshaw, Mark N. Wu

2025Science23 citationsDOI

Abstract

Prolonged wakefulness leads to persistent, deep recovery sleep (RS). However, the neuronal circuits that mediate this process remain elusive. From a circuit screen in mice, we identified a group of thalamic nucleus reuniens (RE) neurons activated during sleep deprivation (SD) and required for sleep homeostasis. Optogenetic activation of RE neurons leads to an unusual phenotype: presleep behaviors (grooming and nest organizing) followed by prolonged, intense sleep that resembles RS. Inhibiting RE activity during SD impairs subsequent RS, which suggests that these neurons signal sleep need. RE neurons act upstream of sleep-promoting zona incerta cells, and SD triggers plasticity of this circuit to strengthen their connectivity. These findings reveal a circuit mechanism by which sleep need transforms the functional coupling of a sleep circuit to promote persistent, deep sleep.

Topics & Concepts

OptogeneticsSleep (system call)NeuroscienceWakefulnessSleep deprivationNeuroscience of sleepThalamusZona incertaPsychologyBiologyCircadian rhythmElectroencephalographyComputer scienceOperating systemSleep and Wakefulness ResearchCircadian rhythm and melatoninNeuroscience and Neuropharmacology Research