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Structural basis for psilocybin biosynthesis

Psilocybin shows significant therapeutic potential for psilocybin-assisted psychotherapy in addressing various psychiatric conditions. The biosynthetic approach promises rapid and efficient production of psilocybin. Understanding the enzymes that contribute to the biosynthesis of psilocybin can enhance its production process. In this study, we elucidate the crystal structures of L-tryptophan-specific decarboxylase PsiD in both its apo and tryptamine-bound states, the 4-hydroxytryptamine kinase PsiK bound to its substrate, and several forms of the methyltransferase PsiM in either apo or substrate-bound forms derived from the psychedelic mushroom. Structure-based evaluations reveal the mechanisms of self-cleavage and self-inhibition in PsiD, along with the sequential catalytic steps from 4-hydroxytryptamine to the final compound, psilocybin. Additionally, we showcase the antidepressant properties of biosynthetic intermediates of psilocybin on female mice experiencing depression-like behaviors induced by sub-chronic variable stress. Our studies establish a structural basis for the future biosynthetic production of psilocybin using these enzymes and emphasize the clinical potential of norbaeocystin. Here, the authors provide structural and mechanistic insights into psilocybin biosynthesis enzymes, encompassing L-tryptophan-specific decarboxylase PsiD, 4-hydroxytryptamine kinase PsiK, and methyltransferase PsiM. The antidepressant properties of psilocybin intermediates in mice are evaluated.

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Journal
Nature Communications
Date
2025-03-21
Source
OpenAlex
DOI
10.1038/s41467-025-58239-x
PubMed
40121242

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