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Methyl transfer in psilocybin biosynthesis.

Jesse HudspethKai RoggeSebastian DörnerMaximilian MüllDirk HoffmeisterBernhard RuppSebastiaan Werten
Published in: Nature communications (2024)
Psilocybin, the natural hallucinogen produced by Psilocybe ("magic") mushrooms, holds great promise for the treatment of depression and several other mental health conditions. The final step in the psilocybin biosynthetic pathway, dimethylation of the tryptophan-derived intermediate norbaeocystin, is catalysed by PsiM. Here we present atomic resolution (0.9 Å) crystal structures of PsiM trapped at various stages of its reaction cycle, providing detailed insight into the SAM-dependent methylation mechanism. Structural and phylogenetic analyses suggest that PsiM derives from epitranscriptomic N 6 -methyladenosine writers of the METTL16 family, which is further supported by the observation that bound substrates physicochemically mimic RNA. Inherent limitations of the ancestral monomethyltransferase scaffold hamper the efficiency of psilocybin assembly and leave PsiM incapable of catalysing trimethylation to aeruginascin. The results of our study will support bioengineering efforts aiming to create novel variants of psilocybin with improved therapeutic properties.
Keyphrases
  • mental health
  • depressive symptoms
  • dna methylation
  • quality improvement
  • physical activity
  • gene expression
  • copy number
  • combination therapy
  • deep learning
  • artificial intelligence
  • nucleic acid
  • electron transfer