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Integrated 5-HT2A -TrkB and G protein signaling in serotonergic psychedelic responses

Serotonergic psychedelics have attracted considerable interest as promising therapeutic agents. However, the molecular mechanisms linking their acute hallucinogenic-like effects to longer-lasting neuroplastic responses remain incompletely understood, partly because of the scarcity of native neural models suitable for mechanistic studies. Here, we developed a neural stem cell-derived in vitro model capable of differentiating into neuronal and glial lineages and, after characterization, used it to investigate the molecular pharmacology of serotonergic psychedelics. A panel comprising tryptamines, phenethylamines and ergolines, including psychedelic compounds and selected non-psychedelic analogues, was evaluated alongside ketamine and TrkB agonists. Endpoints included dendritogenesis, synaptogenesis, immediate-early gene induction, BDNF expression and lactate production. TrkB silencing abolished dendritogenic responses to serotonergic psychedelics, ketamine and TrkB agonists, whereas 5-HT2A receptor silencing selectively impaired serotonergic psychedelic-induced plasticity and altered TrkB-dependent responses. Most serotonergic compounds also increased synaptogenesis and induced c-Fos and Egr-2 expression, although ligand-specific differences were evident, particularly for psilocin and the phenethylamines DOI and Ariadne. Uncoupling of G q/11 or G i/o protein-dependent signaling differentially modified neuroplastic and transcriptional responses, indicating a ligand and endpoint dependent contribution of both pathways. Serotonergic psychedelics further induced a 5-HT2A receptor dependent lactate response that was generally sensitive to disruption of either G q/11 or G i/o protein coupling. Taken together, these findings support a model in which serotonergic psychedelics recruit an integrated 5-HT2A -TrkB signaling network with distinct structural, transcriptional and metabolic outputs, and establish this neural stem cell-derived system as a valuable platform for screening and dissecting the signaling basis of psychedelic action.

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Journal
bioRxiv
Date
2026-03-22
Source
bioRxiv
DOI
10.64898/2026.03.19.712961
PubMed
Unavailable

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