Science Translational Medicine
January 10, 2024
Katie Kamenish, Roberto Arban, Aslihan Selimbeyoglu et al.
26 citations
Negative cognitive biases—where mood colors learning and memory—are a core feature of major depressive disorder, and reversing them may be key to how rapid-acting antidepressants work. In rats, a single dose of ketamine, scopolamine, or psilocybin selectively weakened a negative affective bias induced in an associative learning task. Low doses of ketamine and psilocybin, but not high doses, reversed the valence of the bias 24 hours later. Only psilocybin produced a lasting positive bias that depended on new learning. Ketamine's relearning effects required protein synthesis in the medial prefrontal cortex and could be altered by cue reactivation, pointing to experience-dependent neural plasticity as a shared mechanism for both the rapid and sustained effects of these drugs.
British journal of pharmacology
June 22, 2025
Aurelija Ippolito, Sridhar Vasudevan, Shaun Hurley et al.
9 citations
Serotonergic psychedelic drugs are being studied as treatments for psychiatric disorders like major depression. All such drugs activate the 5-HT2A receptor, but some 5-HT2A receptor agonists are not psychedelic. This investigation tested six psychedelic drugs (psilocin, 5-MeO-DMT, LSD, mescaline, 25B-NBOMe, and DOI) and three non-psychedelic drugs (lisuride, TBG, and IHCH-7079) for their effects on Gq-coupled and β-arrestin2 signaling pathways in cells expressing human 5-HT2A receptors. All psychedelic drugs were unbiased partial agonists at both pathways. The non-psychedelic drugs were not distinguished by signaling bias but showed the lowest signaling efficacy among all drugs tested, a finding confirmed in rat C6 cells. Low 5-HT2A receptor signaling efficacy may explain why some agonists lack psychedelic effects.
Research Square
September 19, 2024
Maria Maiarù, Tatum Askey, Daniel Allen-Ross et al.
2 citations
A single dose of psilocybin produced a sustained reduction in pain sensitivity in a mouse model of chronic neuropathic pain. Additionally, this single dose dramatically increased the pain-relieving effect of gabapentin, a common neuropathic pain medication. These findings suggest that psilocybin may induce lasting changes in neural network processing that enhance the effectiveness of existing treatments.
bioRxiv (Cold Spring Harbor Laboratory)
June 16, 2024
Aurelija Ippolito, Sridhar R. Vasudevan, Shaun Hurley et al.
1 citation
preprint
All psychedelic drugs tested were unbiased, partial agonists at the 5-HT2A receptor, activating G-protein and β-arrestin2 pathways equally. Non-psychedelic drugs lisuride and TBG were not biased either, but they showed the lowest signalling efficacy among all compounds. Low efficacy at the 5-HT2A receptor, not biased signalling, may explain why some 5-HT2A agonists are not psychedelic.
Neuropsychopharmacology
July 10, 2026
Christopher W. Thomas, Kayleigh S. Lamalfa, Tobias P. Whelan et al.
Psilocybin and ketamine acutely increased reward responsiveness in rats, and the effect persisted 24 hours after dosing. The increase from psilocybin, but not ketamine, was blocked by a 5-HT2A receptor antagonist. Other psychedelics, DMT and DOI, also acutely increased reward responsiveness but the effect did not last 24 hours. The non-psychedelic 5-HT2A agonist lisuride and the SSRI fluoxetine had no positive effects. These results suggest psychedelics can produce acute and enduring increases in reward responsiveness, partly through the 5-HT2A receptor, though the time course varies and clinical implications require further validation.
Communications biology
April 24, 2026
Tatum Askey, Daniel Allen-Ross, Daniil Luzyanin et al.
A single dose of psilocybin produces a sustained anti-nociceptive effect in chronic neuropathic pain models in male and female mice, mediated primarily by 5-HT2A receptors. Psilocybin significantly potentiates the analgesic efficacy of gabapentin, a standard-of-care treatment, representing the first preclinical evidence that a psychedelic can serve as a pain-network primer for existing analgesics. This finding suggests a novel therapeutic strategy, particularly for the 30-50% of neuropathic pain patients who fail gabapentin monotherapy. The data demonstrate that a single psilocybin injection produces sustained month-long changes that enhance gabapentin efficacy in a preclinical model.
bioRxiv (Cold Spring Harbor Laboratory)
March 4, 2026
Matthew D. B. Claydon, Justyna K. Hinchcliffe, Julia M. Bartlett et al.
Psilocybin, the active compound in magic mushrooms, produces rapid and lasting antidepressant effects in people with major depressive disorder, but the underlying brain mechanisms are not fully understood. In rats, psilocin (the active metabolite of psilocybin) alters negative affective biases—a key feature of depression—by acting on a specific circuit in the medial prefrontal cortex. It suppresses excitatory signals to cortico-amygdala projection neurons while enhancing excitatory transmission to other targets, effects dependent on 5HT1A and 5HT2A receptors. These changes persist for at least 24 hours and shift from suppressed excitation to enhanced inhibition in those same cells. Chemogenetically inhibiting these neurons reproduced psilocybin's effects on affective biases and reward memories, identifying this circuit as a key substrate for its antidepressant actions.
bioRxiv (Cold Spring Harbor Laboratory)
January 15, 2026
Justyna K. Hinchcliffe, Christopher W. Thomas, Gary Gilmour et al.
Psilocybin, a serotonergic psychedelic, can rapidly and lastingly reverse impaired reward processing in a rat model of depression. In rats with chronic interferon-alpha-induced depression, a single dose of psilocybin (0.3 mg/kg) restored reward-induced behavioral biases within 24 hours, and the effect persisted for at least 7 days. This suggests that restoring blunted reward processing may contribute to psilocybin's sustained antidepressant effects.
September 17, 2025
Tatum Askey, Daniel Allen-Ross, Daniil Luzyanin et al.
preprint
A single dose of psilocybin produced a sustained anti-nociceptive effect in a mouse model of chronic neuropathic pain, in both male and female mice. This effect was mediated by 5-HT2A receptors, though other mechanisms may also contribute. Psilocybin also significantly increased the anti-nociceptive potential of gabapentin, a common neuropathic pain treatment, suggesting longer-lasting changes in network processing. These findings provide the first preclinical evidence that psilocybin could be a valuable approach for treating chronic pain from nerve injury and serve as a new therapeutic addition for pain management.