Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells
α- and γ- Mangostin are the most abundant prenylated xanthones present in the fruit of the mangosteen tree. These compounds have been reported to possess numerous bioactivities that have provided the impetus for use of mangosteen products as nutraceuticals and in functional foods and dietary supplem...
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th-mahidol.270222018-09-13T13:25:01Z Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells Akkarach Bumrungpert Ruchaneekorn W. Kalpravidh Sunit Suksamrarn Apinya Chaivisuthangkura Chureeporn Chitchumroonchokchai Mark L. Failla Mahidol University Srinakharinwirot University Ohio State University Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology α- and γ- Mangostin are the most abundant prenylated xanthones present in the fruit of the mangosteen tree. These compounds have been reported to possess numerous bioactivities that have provided the impetus for use of mangosteen products as nutraceuticals and in functional foods and dietary supplements. The health-promoting benefits of mangosteen are dependent on delivery of the xanthones to target tissues. Here, we used simulated digestion and Caco-2 cells to investigate the digestive stability, bioaccessibility, and intestinal cell transport of α- and γ- mangostin. Recovery of α- and γ-mangostin after simulated digestion of pericarp and fruit pulp exceeded 90%. Transfer of α-and γ-mangostin to the aqueous fraction during simulated digestion was efficient (65-74%) and dependent on bile salts suggesting that micellarization is required for optimal bioaccessibility of xanthones. Cell uptake of xanthones from micelles was dose dependent and intracellular concentrations were maximum by 1 h. Both free and phase II metabolites of α-mangostin were transported in the basolateral compartment and metabolites also effluxed into the apical chamber. Transepithelial transport of α-mangostin was increased during prandial-like compared to fasted conditions suggesting that absorption is enhanced by dietary fat. © 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. 2018-09-13T06:18:47Z 2018-09-13T06:18:47Z 2009-05-01 Article Molecular Nutrition and Food Research. Vol.53, No.SUPPL. 1 (2009) 10.1002/mnfr.200800260 16134133 16134125 2-s2.0-66749135984 https://repository.li.mahidol.ac.th/handle/123456789/27022 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=66749135984&origin=inward |
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Agricultural and Biological Sciences Biochemistry, Genetics and Molecular Biology Akkarach Bumrungpert Ruchaneekorn W. Kalpravidh Sunit Suksamrarn Apinya Chaivisuthangkura Chureeporn Chitchumroonchokchai Mark L. Failla Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells |
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α- and γ- Mangostin are the most abundant prenylated xanthones present in the fruit of the mangosteen tree. These compounds have been reported to possess numerous bioactivities that have provided the impetus for use of mangosteen products as nutraceuticals and in functional foods and dietary supplements. The health-promoting benefits of mangosteen are dependent on delivery of the xanthones to target tissues. Here, we used simulated digestion and Caco-2 cells to investigate the digestive stability, bioaccessibility, and intestinal cell transport of α- and γ- mangostin. Recovery of α- and γ-mangostin after simulated digestion of pericarp and fruit pulp exceeded 90%. Transfer of α-and γ-mangostin to the aqueous fraction during simulated digestion was efficient (65-74%) and dependent on bile salts suggesting that micellarization is required for optimal bioaccessibility of xanthones. Cell uptake of xanthones from micelles was dose dependent and intracellular concentrations were maximum by 1 h. Both free and phase II metabolites of α-mangostin were transported in the basolateral compartment and metabolites also effluxed into the apical chamber. Transepithelial transport of α-mangostin was increased during prandial-like compared to fasted conditions suggesting that absorption is enhanced by dietary fat. © 2009 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. |
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Mahidol University |
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Mahidol University Akkarach Bumrungpert Ruchaneekorn W. Kalpravidh Sunit Suksamrarn Apinya Chaivisuthangkura Chureeporn Chitchumroonchokchai Mark L. Failla |
| format |
Article |
| author |
Akkarach Bumrungpert Ruchaneekorn W. Kalpravidh Sunit Suksamrarn Apinya Chaivisuthangkura Chureeporn Chitchumroonchokchai Mark L. Failla |
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Akkarach Bumrungpert |
| title |
Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells |
| title_short |
Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells |
| title_full |
Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells |
| title_fullStr |
Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells |
| title_full_unstemmed |
Bioaccessibility, biotransformation, and transport of α-mangostin from Garcinia mangostana (Mangosteen) using simulated digestion and Caco-2 human intestinal cells |
| title_sort |
bioaccessibility, biotransformation, and transport of α-mangostin from garcinia mangostana (mangosteen) using simulated digestion and caco-2 human intestinal cells |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/27022 |
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1763496214718840832 |