Psilocin acutely alters sleep-wake architecture and cortical brain activity in laboratory mice
Translational Psychiatry February 23, 2022 Trevor Sharp, Christopher W. Thomas, Cristina Blanco‐duque et al. 40 citations
Psilocin, a serotonergic psychedelic, alters sleep architecture and cortical activity in mice. Acute administration delays REM sleep onset, reduces NREM sleep maintenance for about three hours, and enhances a 4 Hz EEG oscillation. No long-term changes in sleep-wake quantity occur. Psilocin does not affect the overall homeostatic sleep rebound after sleep deprivation, but it slows the recovery of slow-wave activity in the medial prefrontal and surrounding cortex. These findings suggest psilocin influences both global vigilance state control and local sleep homeostasis, which may relate to its antidepressant effects.