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Psilocybin selectively rescues cognitive flexibility impairments caused by aberrant prefrontal error signaling

Psychedelic drugs show remarkable potential for treating psychiatric disorders, but the mechanisms underlying their therapeutic effects remain relatively unknown. Here, we demonstrate that psilocybin can powerfully ameliorate deficits in cognitive flexibility, but this effect depends on the specific circuit-level cause of those deficits. Using optogenetic models of cognitive inflexibility in mice, psilocybin rescued deficits caused by aberrant mesocortical signaling but failed to rescue deficits arising from disrupted interhemispheric gamma synchrony. Aberrant mesocortical signaling drove abnormally elevated activity in prefrontal cortex-mediodorsal thalamus (PFC-MD) projection neurons during post-error exploration, and psilocybin attenuated this pathological activity both acutely and 24 hours later. Patch-clamp electrophysiology revealed that psilocybin induces lasting plasticity in PFC-MD neurons, potentiating thalamic inputs while suppressing dopamine- and NMDA-receptor-dependent afterdepolarizations that could otherwise sustain aberrant post-error signaling. These findings reveal cellular and circuit mechanisms that could explain psilocybin's therapeutic specificity and establish a precision medicine framework approach for psychedelic treatment.

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Journal
bioRxiv
Date
2026-07-08
Source
bioRxiv
DOI
10.64898/2026.07.05.736652
PubMed
Unavailable

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