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Markus Rudin

Institute for Biomedical Engineering

1 paper in the library · 5 citations · publishing 2019

Papers

Psilocybin exerts distinct effects on resting state networks associated with serotonin and dopamine in mice

bioRxiv (Cold Spring Harbor Laboratory) September 1, 2019 Joanes Grandjean, David Buehlmann, Michaela Buerge et al. 5 citations preprint

Psilocybin, a serotonin 2A receptor agonist, alters functional connectivity in the brain's default-mode network, which is involved in self-reference and disrupted in depression. In lightly-anesthetized mice, resting-state fMRI showed psilocybin reduced connectivity within the ventral striatum. Using gene expression maps and viral tracer projections, two distinct effects emerged: psilocybin increased connectivity between serotonin-associated networks and parts of the mouse default-mode network, thalamus, and midbrain, while decreasing connectivity within dopamine-associated striatal networks. These findings suggest that interactions between serotonin- and dopamine-regulated neural networks contribute to psilocybin's neural and psychological effects, and show how molecular and structural connectivity data can clarify pharmaco-fMRI results.