The Evolutionary Pattern of Cocaine and Hyoscyamine Biosynthesis Provides Strategies To Produce Tropane Alkaloids

Duchesse-Lacours Zamar¹, Nicolas Papon², Vincent Courdavault¹

Affiliations

¹ Université de Tours, Faculté de Pharmacie, EA2106 Biomolécules et Biotechnologies Végétales, 31, Avenue Monge, 37200, Tours, France.
² Université d'Angers, Fungal Respiratory Infections Research Unit, University Hospital of Angers, 4 rue de Larrey, 49933, Angers Cedex 09, France.

PMID: 37249120
DOI: 10.1002/cbic.202300234

Review

The Evolutionary Pattern of Cocaine and Hyoscyamine Biosynthesis Provides Strategies To Produce Tropane Alkaloids

Duchesse-Lacours Zamar et al. Chembiochem. 2023.

. 2023 Sep 15;24(18):e202300234.

doi: 10.1002/cbic.202300234. Epub 2023 Aug 11.

Authors

Duchesse-Lacours Zamar¹, Nicolas Papon², Vincent Courdavault¹

Affiliations

¹ Université de Tours, Faculté de Pharmacie, EA2106 Biomolécules et Biotechnologies Végétales, 31, Avenue Monge, 37200, Tours, France.
² Université d'Angers, Fungal Respiratory Infections Research Unit, University Hospital of Angers, 4 rue de Larrey, 49933, Angers Cedex 09, France.

PMID: 37249120
DOI: 10.1002/cbic.202300234

Abstract

Cocaine and hyoscyamine are two tropane alkaloids (TA) from Erythroxylaceae and Solanaceae, respectively. These famous compounds possess anticholinergic properties that can be used to treat neuromuscular disorders. While the hyoscyamine biosynthetic pathway has been fully elucidated allowing its de novo synthesis in yeast, the cocaine pathway remained only partially elucidated. Recently, the Huang research group has completed the cocaine biosynthetic route by characterizing its two missing enzymes. This allowed the whole pathway to be transferring into Nicotiana benthamiana to achieve cocaine production. Here, besides highlighting the impact of this discovery, we discuss how TA biosynthesis evolved via the recruitment of two distinct and convergent pathways in Erythroxylaceae and Solanaceae. Finally, while enriching our knowledge on TA biosynthesis, this diversification of the molecular actors involved in cocaine and hyoscyamine biosynthesis opens perspectives in metabolic engineering by exploring enzyme biochemical plasticity that can ease and shorten TA pathway reconstitution in heterologous organisms.

Keywords: erythroxylaceae; evolution; metabolic engineering; solanaceae; tropane alkaloids.

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References

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The Evolutionary Pattern of Cocaine and Hyoscyamine Biosynthesis Provides Strategies To Produce Tropane Alkaloids

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The Evolutionary Pattern of Cocaine and Hyoscyamine Biosynthesis Provides Strategies To Produce Tropane Alkaloids

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