Glycosylation of Quercetin by Selected Entomopathogenic Filamentous Fungi and Prediction of Its Products' Bioactivity

Quercetin is the most abundant flavonoid in food products, including berries, apples, cauliflower, tea, cabbage, nuts, onions, red wine and fruit juices. It exhibits various biological activities and is used for medical applications, such as treating allergic, inflammatory and metabolic disorders, o...

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Published in:International journal of molecular sciences 2023-07, Vol.24 (14), p.11857
Main Authors: Tronina, Tomasz, Łużny, Mateusz, Dymarska, Monika, Urbaniak, Monika, Kozłowska, Ewa, Piegza, Michał, Stępień, Łukasz, Janeczko, Tomasz
Format: Article
Language:English
Subjects:
4-O-methyloglycosylation
Alzheimer's disease
Antidiabetics
Bioavailability
Biocatalysts
biotransformation
Cardiovascular disease
entomopathogenic fungi
Flavonoids
Food
Fungi
Genomes
Glucose
Health aspects
Isoflavones
Metabolites
Microbiota (Symbiotic organisms)
Organisms
quercetin
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Summary:Quercetin is the most abundant flavonoid in food products, including berries, apples, cauliflower, tea, cabbage, nuts, onions, red wine and fruit juices. It exhibits various biological activities and is used for medical applications, such as treating allergic, inflammatory and metabolic disorders, ophthalmic and cardiovascular diseases, and arthritis. However, its low water solubility may limit quercetin's therapeutic potential. One method of increasing the solubility of active compounds is their coupling to polar molecules, such as sugars. The attachment of a glucose unit impacts the stability and solubility of flavonoids and often determines their bioavailability and bioactivity. Entomopathogenic fungi are biocatalysts well known for their ability to attach glucose and its 4- -methyl derivative to bioactive compounds, including flavonoids. We investigated the ability of cultures of entomopathogenic fungi belonging to , , , and genera to biotransform quercetin. Three major glycosylation products were detected: ( ), 7- -β-D-(4″- -methylglucopyranosyl)-quercetin, ( ) 3- -β-D-(4″- -methylglucopyranosyl)-quercetin and ( ) 3- -β-D-(glucopyranosyl)-quercetin. The results show evident variability of the biotransformation process, both between strains of the tested biocatalysts from different species and between strains of the same species. Pharmacokinetic and pharmacodynamic properties of the obtained compounds were predicted with the use of cheminformatics tools. The study showed that the obtained compounds may have applications as effective modulators of intestinal flora and may be stronger hepato-, cardio- and vasoprotectants and free radical scavengers than quercetin.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms241411857