Effect of olive leaf powder prepared by steam explosion process on lipid absorption and bile acid reabsorption in the intestine

The aim of this study was to establish a novel method to assess the function of food components using fluorescently labeling strategies. In this report, we focused on olive polyphenol hydroxytyrosol (HT)as a target of fluorescent labelling. HT, one of the major polyphenols present in olive leaf and oil, is known to possess a high antioxidant and anticancer capacity. HT was conjugated with FITC to the phenolic hydroxyl group(FITC-HT) . Caco-２ cells were cultured on glass bottom dishes, and then incubated with ５００ ! of FITC-HT for ２４ hours and subsequently incubated with LysoTracker Red (Lysosome marker)or MitoTracker Red(Mitochondria marker)with Hoechst ３３３４２(Nuclei marker) . Thereafter, using KEYENCE BZ-X７００ Series All-in-one Fluorescence Microscope, the imaging data was acquired. As a result, FITC-HT was detected in the lysosome but not in the mitochondria and nuclei of Caco-２. And, FITC and fluorescein were not detected in the Caco-２ cells, suggested this imaging data of FITC-HT is dependent on the formula of HT. Thereafter, we concluded that cellular imaging using fluorescent labeled food compounds is a powerful tool to analyze the effect of functional food constituents.

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Intracellular Kinetic Analysis Using Fluorescence Labeling Olive Leaf Polyphenol

Kobayashi

MOGI

TAKAHASHI

et al. 2016

Food Preserv. Sci.

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Effect of olive leaf powder prepared by steam explosion process on lipid absorption and bile acid reabsorption in the intestine

Cited by 1 publication

References 13 publications

Intracellular Kinetic Analysis Using Fluorescence Labeling Olive Leaf Polyphenol

Intracellular Kinetic Analysis Using Fluorescence Labeling Olive Leaf Polyphenol

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