Cellular Antioxidant Effects and Bioavailability of Food Supplements Rich in Hydroxytyrosol

• Published in: Applied sciences Vol. 11; no. 11; p. 4763
• Main Authors: Bender, Cecilia, Straßmann, Sarah, Heidrich, Pola
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.06.2021
• Subjects: Acids; Advanced glycosylation end products; antioxidant capacity; Antioxidants; Bioavailability; Biological activity; Data analysis; Dietary supplements; Free radicals; Fruit juices; Fruits; Gas flow; Glucose; Glycosylation; grape extract; Grapes; Hydroxyl radicals; hydroxytyrosol; Juices; Lipid peroxidation; Oleuropein; olive extract; Olive oil; olive polyphenols; Olives; Oxidation; Peroxides; Phenols; Polyphenols; Scavenging; Software; Tyrosol; Vegetation; United States > US; Italy; Germany
• ISSN: 2076-3417; 2076-3417
• DOI: 10.3390/app11114763

The present study evaluates the effect of olive (Olea europaea L.) vegetation water on human cells regarding its antioxidant properties and radical scavenger bioactivities. To this aim, two food supplements containing concentrated olive water in combination with 6% lemon juice or 70% grape juice, respectively, were assessed in different oxidation assays. From the investigated polyphenols, hydroxytyrosol, present in olives and in a lesser extent in grapes, was found to be the most abundant in both formulations, followed by tyrosol and oleuropein for the olive-derived concentrate with lemon juice, and by proanthocyanidins and tyrosol for the olive concentrate with grape juice. Cellular studies suggest that both formulations are effective antioxidants. In particular, the combination of olive and grape extracts showed a remarkable superoxides-, hydroxyl radicals-, and hydrogen peroxides-scavenging activity, while the formulation containing 94% olive concentrate wasmore potent in protecting the cells against lipoxidation. Both products showed a significant and similar effect in preventing advanced glycation end products’ (AGEs) formation. In addition, preliminary data indicate that hydroxytyrosol is absorbed into the human body when administered via these hydrophilic matrices, as confirmed by the urinary excretion of free hydroxytyrosol. Since the availability of phytochemicals largely depends on the vehicle in which they are solved, these findings are of relevance and contribute to supporting the healthful effects here assessed in a cellular environment.