Janis Fricke scite author profile

Psilocybin is the psychotropic tryptamine-derived natural product of Psilocybe carpophores, the so-called "magic mushrooms". Although its structure has been known for 60 years, the enzymatic basis of its biosynthesis has remained obscure. We characterized four psilocybin biosynthesis enzymes, namely i) PsiD, which represents a new class of fungal l-tryptophan decarboxylases, ii) PsiK, which catalyzes the phosphotransfer step, iii) the methyltransferase PsiM, catalyzing iterative N-methyl transfer as the terminal biosynthetic step, and iv) PsiH, a monooxygenase. In a combined PsiD/PsiK/PsiM reaction, psilocybin was synthesized enzymatically in a step-economic route from 4-hydroxy-l-tryptophan. Given the renewed pharmaceutical interest in psilocybin, our results may lay the foundation for its biotechnological production.

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Facile assembly and fluorescence-based screening method for heterologous expression of biosynthetic pathways in fungi

Hoefgen

Lin

Fricke

et al. 2018

Metabolic Engineering

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Heterologous expression of multi-gene biosynthetic pathways in eukaryotic hosts is limited by highly regulated individual monocistrons. Dissimilar to prokaryotes, each eukaryotic gene is strictly controlled by its own regulatory elements, such as promoter and terminator. Consequently, parallel transcription can occur only when a group of genes is synchronously activated. A strategy to circumvent this limitation is the concerted expression of multiple genes as a polycistron. By exploiting the "stop-carry on" mechanism of picornaviruses, we have designed a sophisticated, yet easy-to-assemble vector system to heterologously express multiple genes under the control of a single promoter. For facile selection of correctly transformed colonies by basic fluorescence microscopy, our vector includes a split gene for a fluorescent reporter protein. This method was successfully applied to produce the psychotropic mushroom alkaloid psilocybin in high yields by heterologous expression of the entire biosynthetic gene cluster in the mould Aspergillus nidulans.

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Simultaneous Production of Psilocybin and a Cocktail of β‐Carboline Monoamine Oxidase Inhibitors in “Magic” Mushrooms

Blei

Dörner

Fricke

et al. 2019

Chemistry A European J

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The psychotropic effectso fPsilocybe "magic" mushroomsa re caused by the l-tryptophan-derived alkaloid psilocybin.D espite their significance,t he secondary metabolome of these fungi is poorly understood in general. Our analysis of four Psilocybe speciesi dentified harmane, harmine, and ar ange of other l-tryptophan-derived b-carbolines as their natural products,w hichw as confirmed by 1D and 2D NMR spectroscopy.S table-isotope labeling with 13 C 11 -l-tryptophan verifiedt he b-carbolines as biosynthetic products of these fungi. In addition, MALDI-MS imaging showedt hat b-carbolines accumulate toward the hyphal apices.A sp otent inhibitors of monoamine oxidases, b-carbolines are neuroactive compounds and interfere with psilocybin degradation. Therefore, our findings represent an unprecedented scenario of natural product pathways that diverge from the same buildingb lock and produce dissimilar compounds, yet contribute directlyo ri ndirectly to the same pharmacological effects.

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Biocatalytic Production of Psilocybin and Derivatives in Tryptophan Synthase‐Enhanced Reactions

Blei

Baldeweg

Fricke

et al. 2018

Chemistry A European J

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Psilocybin (4-phosphoryloxy-N,N-dimethyltryptamine) is the main alkaloid of the fungal genus Psilocybe, the so-called "magic mushrooms." The pharmaceutical interest in this psychotropic natural product as a future medication to treat depression and anxiety is strongly re-emerging. Here, we present an enhanced enzymatic route of psilocybin production by adding TrpB, the tryptophan synthase of the mushroom Psilocybe cubensis, to the reaction. We capitalized on its substrate flexibility and show psilocybin formation from 4-hydroxyindole and l-serine, which are less cost-intensive substrates, compared to the previous method. Furthermore, we show enzymatic production of 7-phosphoryloxytryptamine (isonorbaeocystin), a non-natural congener of the Psilocybe alkaloid norbaeocystin (4-phosphoryloxytryptamine), and of serotonin (5-hydroxytryptamine) by means of the same in vitro approach.

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Scalable Hybrid Synthetic/Biocatalytic Route to Psilocybin

Fricke

Kargbo

Regestein

et al. 2020

Chemistry A European J

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Psilocybin, the principal indole alkaloid of Psilocybe mushrooms, is currently undergoing clinical trials as a medication against treatment‐resistant depression and major depressive disorder. The psilocybin supply for pharmaceutical purposes is met by synthetic chemistry. We replaced the problematic phosphorylation step during synthesis with the mushroom kinase PsiK. This enzyme was biochemically characterized and used to produce one gram of psilocybin from psilocin within 20 minutes. We also describe a pilot‐scale protocol for recombinant PsiK that yielded 150 mg enzyme in active and soluble form. Our work consolidates the simplicity of tryptamine chemistry with the specificity and selectivity of enzymatic catalysis and helps provide access to an important drug at potentially reasonable cost.

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Production Options for Psilocybin: Making of the Magic

Fricke

Lenz

Wick

et al. 2018

Chemistry A European J

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The fungal genus Psilocybe and other genera comprise numerous mushroom species that biosynthesize psilocybin (4-phosphoryloxy-N,N-dimethyltryptamine). It represents the prodrug to its dephosphorylated psychotropic analogue, psilocin. The colloquial term "magic mushrooms" for these fungi alludes to their hallucinogenic effects and to their use as recreational drugs. However, clinical trials have recognized psilocybin as a valuable candidate to be developed into a medication against depression and anxiety. We here highlight its recently elucidated biosynthesis, the concurrently developed concept of enzymatic in vitro and heterologous in vivo production, along with previous synthetic routes. The prospect of psilocybin as a promising therapeutic may entail an increased demand, which can be met by biotechnological production. Therefore, we also briefly touch on psilocybin's therapeutic relevance and pharmacology.

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Biochemical and genetic basis of orsellinic acid biosynthesis and prenylation in a stereaceous basidiomycete

Braesel

Fricke

Schwenk

et al. 2017

Fungal Genetics and Biology

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Comparative Genomic and Metabolomic Analysis of Termitomyces Species Provides Insights into the Terpenome of the Fungal Cultivar and the Characteristic Odor of the Fungus Garden of Macrotermes natalensis Termites

et al. 2022

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The symbiosis between macrotermitinae termites and Termitomyces is obligate for both partners and is one of the most important contributors to biomass conversion in the Old World tropic’s ecosystems. To date, research efforts have dominantly focused on acquiring a better understanding of the degradative capabilities of Termitomyces to sustain the obligate nutritional symbiosis, but our knowledge of the small-molecule repertoire of the fungal cultivar mediating interspecies and interkingdom interactions has remained fragmented.

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Janis Fricke

Enzymatic Synthesis of Psilocybin

Facile assembly and fluorescence-based screening method for heterologous expression of biosynthetic pathways in fungi

Simultaneous Production of Psilocybin and a Cocktail of β‐Carboline Monoamine Oxidase Inhibitors in “Magic” Mushrooms

Biocatalytic Production of Psilocybin and Derivatives in Tryptophan Synthase‐Enhanced Reactions

Scalable Hybrid Synthetic/Biocatalytic Route to Psilocybin

Production Options for Psilocybin: Making of the Magic

Biochemical and genetic basis of orsellinic acid biosynthesis and prenylation in a stereaceous basidiomycete

Comparative Genomic and Metabolomic Analysis of Termitomyces Species Provides Insights into the Terpenome of the Fungal Cultivar and the Characteristic Odor of the Fungus Garden of Macrotermes natalensis Termites

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