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Vedrana Cvetkovska

McGill University

1 paper in the library · 2 citations · publishing 2025

Papers

Cell-type specific transcriptional modulation by psilocybin induces sustained plasticity in mouse medial prefrontal cortex

bioRxiv (Cold Spring Harbor Laboratory) January 8, 2025 Delong Zhou, Heike Schuler, Vedrana Cvetkovska et al. 2 citations preprint

A single dose of psilocybin increases synaptic transmission in the medial prefrontal cortex of mice. Single-cell RNA sequencing reveals that, 24 hours after administration, plasticity-related gene expression rises in excitatory neurons, with particularly robust changes in a deep-layer neuron type called L5/6 NP. This cell-type specificity aligns with 5-HT 2C receptor expression patterns, not 5-HT 2A. Multivariate analyses show that psilocybin-induced gene expression in L5/6 NP neurons predicts 5-HT 2C transcript levels. Blocking 5-HT 2C receptors with an antagonist attenuates the sustained effect on synaptic transmission, identifying 5-HT 2C signaling and L5/6 NP neurons as key mediators of psilocybin's lasting neuroplastic effects.