4.7 Article

UNRAVELing the synergistic effects of psilocybin and environment on brain-wide immediate early gene expression in mice

Journal

NEUROPSYCHOPHARMACOLOGY
Volume -, Issue -, Pages -

Publisher

SPRINGERNATURE
DOI: 10.1038/s41386-023-01613-4

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This study used mice as experimental subjects to investigate the effects of environmental context on psilocybin-induced neural activity. The results showed that psilocybin increased neural activity in certain subregions of the brain while decreasing activity in others. Overall, this study demonstrated significant effects of both context and psilocybin on network architecture.
The effects of context on the subjective experience of serotonergic psychedelics have not been fully examined in human neuroimaging studies, partly due to limitations of the imaging environment. Here, we administered saline or psilocybin to mice in their home cage or an enriched environment, immunofluorescently-labeled brain-wide c-Fos, and imaged iDISCO+ cleared tissue with light sheet fluorescence microscopy (LSFM) to examine the impact of environmental context on psilocybin-elicited neural activity at cellular resolution. Voxel-wise analysis of c-Fos-immunofluorescence revealed clusters of neural activity associated with main effects of context and psilocybin-treatment, which were validated with c-Fos(+) cell density measurements. Psilocybin increased c-Fos expression in subregions of the neocortex, caudoputamen, central amygdala, and parasubthalamic nucleus while it decreased c-Fos in the hypothalamus, cortical amygdala, striatum, and pallidum in a predominantly context-independent manner. To gauge feasibility of future mechanistic studies on ensembles activated by psilocybin, we confirmed activity- and Cre-dependent genetic labeling in a subset of these neurons using TRAP2(+/-);Ai14(+) mice. Network analyses treating each psilocybin-sensitive cluster as a node indicated that psilocybin disrupted co-activity between highly correlated regions, reduced brain modularity, and dramatically attenuated intermodular co-activity. Overall, our results indicate that main effects of context and psilocybin were robust, widespread, and reorganized network architecture, whereas contextxpsilocybin interactions were surprisingly sparse.

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