Pentacyclic Triterpene Profile and Its Biosynthetic Pathway in Cecropia telenitida as a Prospective Dietary Supplement.

Gustavo Gutiérrez, Laura Marcela Valencia, Deisy Giraldo-Dávila, Marianny Y Combariza, Elkin Galeano, Norman Balcazar, Aram J Panay, Alejandra Maria Jerez, Guillermo Montoya

Molecules (Basel, Switzerland) 2021 Feb 18

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Promising research over the past decades has shown that some types of pentacyclic triterpenes (PTs) are associated with the prevention of type 2 diabetes (T2D), especially those found in foods. The most abundant edible sources of PTs are those belonging to the ursane and oleanane scaffold. The principal finding is that Cecropia telenitida contains abundant oleanane and ursane PT types with similar oxygenation patterns to those found in food matrices. We studied the compositional profile of a rich PT fraction (DE16-R) and carried out a viability test over different cell lines. The biosynthetic pathway connected to the isolated PTs in C. telenitida offers a specific medicinal benefit related to the modulation of T2D. This current study suggests that this plant can assemble isobaric, positional isomers or epimeric PT. Ursane or oleanane scaffolds with the same oxygenation pattern are always shared by the PTs in C. telenitida, as demonstrated by its biosynthetic pathway. Local communities have long used this plant in traditional medicine, and humans have consumed ursane and oleanane PTs in fruits since ancient times, two key points we believe useful in considering the medicinal benefits of C. telenitida and explaining how a group of molecules sharing a closely related scaffold can express effectiveness.

Citation

Gustavo Gutiérrez, Laura Marcela Valencia, Deisy Giraldo-Dávila, Marianny Y Combariza, Elkin Galeano, Norman Balcazar, Aram J Panay, Alejandra Maria Jerez, Guillermo Montoya. Pentacyclic Triterpene Profile and Its Biosynthetic Pathway in Cecropia telenitida as a Prospective Dietary Supplement. Molecules (Basel, Switzerland). 2021 Feb 18;26(4)