The Bioavailability, Transport, and Bioactivity of Dietary Flavonoids: A Review from a Historical Perspective

doi:10.1111/1541-4337.12351

. 2018 Sep;17(5):1054-1112.

doi: 10.1111/1541-4337.12351. Epub 2018 Jul 10.

The Bioavailability, Transport, and Bioactivity of Dietary Flavonoids: A Review from a Historical Perspective

Gary Williamson¹, Colin D Kay², Alan Crozier^{3

4}

Affiliations

¹ School of Food Science, Univ. of Leeds, Leeds, LS2 9JT, U.K.
² Food Bioprocessing and Nutrition Sciences, Plants for Human Health Inst., North Carolina State Univ., North Carolina Research Campus, Kannapolis, NC, 28081, U.S.A.
³ Dept. of Nutrition, Univ. of California, Davis, CA, 95616, U.S.A.
⁴ School of Medicine, Dentistry and Nursing, Univ. Glasgow, Glasgow, G12 8QQ, UK.

PMID: 33350159
DOI: 10.1111/1541-4337.12351

The Bioavailability, Transport, and Bioactivity of Dietary Flavonoids: A Review from a Historical Perspective

Gary Williamson et al. Compr Rev Food Sci Food Saf. 2018 Sep.

. 2018 Sep;17(5):1054-1112.

doi: 10.1111/1541-4337.12351. Epub 2018 Jul 10.

Authors

Gary Williamson¹, Colin D Kay², Alan Crozier^{3

4}

Affiliations

¹ School of Food Science, Univ. of Leeds, Leeds, LS2 9JT, U.K.
² Food Bioprocessing and Nutrition Sciences, Plants for Human Health Inst., North Carolina State Univ., North Carolina Research Campus, Kannapolis, NC, 28081, U.S.A.
³ Dept. of Nutrition, Univ. of California, Davis, CA, 95616, U.S.A.
⁴ School of Medicine, Dentistry and Nursing, Univ. Glasgow, Glasgow, G12 8QQ, UK.

PMID: 33350159
DOI: 10.1111/1541-4337.12351

Abstract

Flavonoids are plant-derived dietary components with a substantial impact on human health. Research has expanded massively since it began in the 1930s, and the complex pathways involved in bioavailability of flavonoids in the human body are now well understood. In recent years, it has been appreciated that the gut microbiome plays a major role in flavonoid action, but much progress still needs to be made in this area. Since the first publications on the health effects of flavonoids, their action is understood to protect against various stresses, but the mechanism of action has evolved from the now debunked simple direct antioxidant hypothesis into an understanding of the complex effects on molecular targets and enzymes in specific cell types. This review traces the development of the field over the past 8 decades, and indicates the current state of the art, and how it was reached. Future recommendations based on this historical analysis are (a) to focus on key areas of flavonoid action, (b) to perform human intervention studies focusing on bioavailability and protective effects, and (c) to carry out cellular in vitro experiments using appropriate cells together with the chemical form of the flavonoid found at the site of action; this could be the native form of compounds found in the food for studies on digestion and the intestine, the conjugated metabolites found in the blood after absorption in the small intestine for studies on cells, or the chemical forms found in the blood and tissues after catabolism by the gut microbiota.

Keywords: bioactivity; bioavailability; dietary flavonoids; metabolism; transport.

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References

1. Abdalla, S., Zarga, M. A., Afifi, F., al-Khalil, S., Mahasneh, A., & Sabri, S. (1989). Effects of 3,3′-di-O-methylquercetin on guinea-pig isolated smooth muscle. Journal of Pharmaceutics and Pharmacology, 41, 138-141.
1. Actis-Goreta, L., Lévèques, A., Giuffrida, F., Romanov-Michailidis, F., Viton, D., Barron, D., … Dionisi, F. (2012). Elucidation of (−)-epicatechin metabolites after ingestion of chocolate by healthy humans. Free Radical Biology and Medicine, 53, 787-795. https://doi.org/10.1016/jfreeradbiomed.2012.05.023.
1. Actis-Goretta, L., Lévèques, A., Rein, M., Teml, A., Schäfer, C., Hofmann, U., … Williamson, G. (2013). Intestinal absorption, metabolism and excretion of (-)-epicatechin in healthy humans assessed by using an intestinal perfusion technique. American Journal of Clinical Nutrition, 98, 924-933. https://doi.org/10.3945/ajcn.113.065789.
1. Actis-Goretta, L., Dew, T. P., Lévèsques, A., Pereira-Caro, G., Rein, M., Teml, A., … Williamson, G. (2015). Gastrointestinal absorption and metabolism of hesperetin-7-O-rutinoside and hesperetin-7-O-glucoside in healthy humans. Molecular Nutrition and Food Research, 59, 1651-1662. https://doi.org/10.1002/mnfr.201500202.
1. Agarwal, S., Yadav, A., & Chaturvedi, R. K. (2017). Peroxisome proliferator-activated receptors (PPARs) as therapeutic target in neurodegenerative disorders. Biochemical and Biophysical Research Communications, 483, 1166-1177. https://doi.org/10.1016/j.bbrc.2016.08.043.

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[1] Abdalla, S., Zarga, M. A., Afifi, F., al-Khalil, S., Mahasneh, A., & Sabri, S. (1989). Effects of 3,3′-di-O-methylquercetin on guinea-pig isolated smooth muscle. Journal of Pharmaceutics and Pharmacology, 41, 138-141.

[2] Abdalla, S., Zarga, M. A., Afifi, F., al-Khalil, S., Mahasneh, A., & Sabri, S. (1989). Effects of 3,3′-di-O-methylquercetin on guinea-pig isolated smooth muscle. Journal of Pharmaceutics and Pharmacology, 41, 138-141.

[3] Actis-Goreta, L., Lévèques, A., Giuffrida, F., Romanov-Michailidis, F., Viton, D., Barron, D., … Dionisi, F. (2012). Elucidation of (−)-epicatechin metabolites after ingestion of chocolate by healthy humans. Free Radical Biology and Medicine, 53, 787-795. https://doi.org/10.1016/jfreeradbiomed.2012.05.023.

[4] Actis-Goreta, L., Lévèques, A., Giuffrida, F., Romanov-Michailidis, F., Viton, D., Barron, D., … Dionisi, F. (2012). Elucidation of (−)-epicatechin metabolites after ingestion of chocolate by healthy humans. Free Radical Biology and Medicine, 53, 787-795. https://doi.org/10.1016/jfreeradbiomed.2012.05.023.

[5] Actis-Goretta, L., Lévèques, A., Rein, M., Teml, A., Schäfer, C., Hofmann, U., … Williamson, G. (2013). Intestinal absorption, metabolism and excretion of (-)-epicatechin in healthy humans assessed by using an intestinal perfusion technique. American Journal of Clinical Nutrition, 98, 924-933. https://doi.org/10.3945/ajcn.113.065789.

[6] Actis-Goretta, L., Lévèques, A., Rein, M., Teml, A., Schäfer, C., Hofmann, U., … Williamson, G. (2013). Intestinal absorption, metabolism and excretion of (-)-epicatechin in healthy humans assessed by using an intestinal perfusion technique. American Journal of Clinical Nutrition, 98, 924-933. https://doi.org/10.3945/ajcn.113.065789.

[7] Actis-Goretta, L., Dew, T. P., Lévèsques, A., Pereira-Caro, G., Rein, M., Teml, A., … Williamson, G. (2015). Gastrointestinal absorption and metabolism of hesperetin-7-O-rutinoside and hesperetin-7-O-glucoside in healthy humans. Molecular Nutrition and Food Research, 59, 1651-1662. https://doi.org/10.1002/mnfr.201500202.

[8] Actis-Goretta, L., Dew, T. P., Lévèsques, A., Pereira-Caro, G., Rein, M., Teml, A., … Williamson, G. (2015). Gastrointestinal absorption and metabolism of hesperetin-7-O-rutinoside and hesperetin-7-O-glucoside in healthy humans. Molecular Nutrition and Food Research, 59, 1651-1662. https://doi.org/10.1002/mnfr.201500202.

[9] Agarwal, S., Yadav, A., & Chaturvedi, R. K. (2017). Peroxisome proliferator-activated receptors (PPARs) as therapeutic target in neurodegenerative disorders. Biochemical and Biophysical Research Communications, 483, 1166-1177. https://doi.org/10.1016/j.bbrc.2016.08.043.

[10] Agarwal, S., Yadav, A., & Chaturvedi, R. K. (2017). Peroxisome proliferator-activated receptors (PPARs) as therapeutic target in neurodegenerative disorders. Biochemical and Biophysical Research Communications, 483, 1166-1177. https://doi.org/10.1016/j.bbrc.2016.08.043.

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The Bioavailability, Transport, and Bioactivity of Dietary Flavonoids: A Review from a Historical Perspective

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The Bioavailability, Transport, and Bioactivity of Dietary Flavonoids: A Review from a Historical Perspective

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Abstract

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