Litcius/Paper detail

Orexin signaling modulates synchronized excitation in the sublaterodorsal tegmental nucleus to stabilize REM sleep

Hui Feng, Si‐Yi Wen, Qi‐Cheng Qiao, Yu-Jie Pang, Shengyun Wang, Hao-Yi Li, Jiao Cai, Kaixuan Zhang, Jing Chen, Zhian Hu, Fenlan Luo, Guanzhong Wang, Nian Yang, Jun Zhang

2020Nature Communications82 citationsDOIOpen Access PDF

Abstract

The relationship between orexin/hypocretin and rapid eye movement (REM) sleep remains elusive. Here, we find that a proportion of orexin neurons project to the sublaterodorsal tegmental nucleus (SLD) and exhibit REM sleep-related activation. In SLD, orexin directly excites orexin receptor-positive neurons (occupying ~3/4 of total-population) and increases gap junction conductance among neurons. Their interaction spreads the orexin-elicited partial-excitation to activate SLD network globally. Besides, the activated SLD network exhibits increased probability of synchronized firings. This synchronized excitation promotes the correspondence between SLD and its downstream target to enhance SLD output. Using optogenetics and fiber-photometry, we consequently find that orexin-enhanced SLD output prolongs REM sleep episodes through consolidating brain state activation/muscle tone inhibition. After chemogenetic silencing of SLD orexin signaling, a ~17% reduction of REM sleep amounts and disruptions of REM sleep muscle atonia are observed. These findings reveal a stabilization role of orexin in REM sleep.

Topics & Concepts

OrexinOptogeneticsNeuroscienceOrexin-ASleep (system call)Orexin receptorPopulationBiologyMedicineInternal medicineNeuropeptideReceptorComputer scienceOperating systemEnvironmental healthSleep and Wakefulness ResearchCircadian rhythm and melatoninSleep and related disorders