Sex-specific increased reactivity of the PVT and prolonged PVT→CeA circuit engagement following psilocin administration
The psychedelic psilocybin has shown therapeutic potential, yet underlying neural mechanisms remain poorly understood. We investigated the impact of psilocin-the active metabolite of psilocybin-on basal activity and reactivity within the paraventricular nucleus of the thalamus (PVT) and PVT projections to central amygdala (CeA) in rats. Psilocin administration increased PVT c-Fos expression and selectively engaged PVT→CeA neurons in females, but not males. Psilocin enhanced PVT reactivity to an aversive air-puff stimulus, with effects primarily driven by passive responders. In PVT→CeA neurons, psilocin prevented time-dependent reductions in stimulus-evoked activity and maintained reactivity across timepoints in females but not males. The sustained engagement of PVT→CeA circuitry was driven by active responders. These findings identify sex-specific modulation of thalamic-limbic circuitry and behavior by psilocin, implicating PVT→CeA circuitry in the neural and behavioral effects of psychedelic compounds, advancing our understanding of how psychedelics modulate emotional brain circuits to further inform potential therapeutic mechanisms. Psychedelics have therapeutic potential, yet their underlying mechanisms remain unclear. Here, authors show that psilocin increased PVT and PVT◄CeA activity in female rats, revealing sexspecific effects on thalamo-limbic circuitry and behavior.