par Foley, Jeannine;Blutstein, Tamara;Lee, Soyoung;Erneux, Christophe 
;Halassa, Michael M.M.;Haydon, Philip
Référence Frontiers in Neural Circuits, 11, 3
Publication Publié, 2017-01
;Halassa, Michael M.M.;Haydon, PhilipRéférence Frontiers in Neural Circuits, 11, 3
Publication Publié, 2017-01
Article révisé par les pairs
| Résumé : | Rapid eye movement (REM) sleep onset is triggered by disinhibition of cholinergic neurons in the pons. During REM sleep, the brain exhibits prominent activity in the 5–8 Hz (theta) frequency range. How REM sleep onset and theta waves are regulated is poorly understood. Astrocytes, a non-neuronal cell type in the brain, respond to cholinergic signals by elevating their intracellular Ca2+concentration. The goal of this study was to assess the sleep architecture of mice with attenuated IP3 mediated Ca2+signaling in astrocytes. Vigilance states and cortical electroencephalograph power were measured in wild type mice and mice with attenuated IP3/Ca2+signaling. Attenuating IP3/Ca2+signaling specifically in astrocytes caused mice to spend more time in REM sleep and enter this state more frequently during their inactive phase. These mice also exhibited greater power in the theta frequency range. These data suggest a role for astrocytic IP3/Ca2+signaling in modulating REM sleep and the associated physiological state of the cortex. |
