Symposium 2: Nutrient interactions and their role in protection from chronic diseases: β-Carotene in the human body: Metabolic bioactivation pathways - From digestion to tissue distribution and excretion

Torsten Bohn, Charles Desmarchelier, Sedef N. El, Jaap Keijer, Evert Van Schothorst, Ralph Rühl*, Patrick Borel

*Corresponding author for this work

    Research output: Contribution to journalConference articlepeer-review

    94 Citations (Scopus)

    Abstract

    β-Carotene intake and tissue/blood concentrations have been associated with reduced incidence of several chronic diseases. Further bioactive carotenoid-metabolites can modulate the expression of specific genes mainly via the nuclear hormone receptors: retinoic acid receptor- and retinoid X receptor-mediated signalling. To better understand the metabolic conversion of β-carotene, inter-individual differences regarding β-carotene bioavailability and bioactivity are key steps that determine its further metabolism and bioactivation and mediated signalling. Major carotenoid metabolites, the retinoids, can be stored as esters or further oxidised and excreted via phase 2 metabolism pathways. In this review, we aim to highlight the major critical control points that determine the fate of β-carotene in the human body, with a special emphasis on β-carotene oxygenase 1. The hypothesis that higher dietary β-carotene intake and serum level results in higher β-carotene-mediated signalling is partly questioned. Alternative autoregulatory mechanisms in β-carotene / retinoid-mediated signalling are highlighted to better predict and optimise nutritional strategies involving β-carotene-related health beneficial mediated effects.

    Original languageEnglish
    Pages (from-to)68-87
    Number of pages20
    JournalProceedings of the Nutrition Society
    Volume78
    Issue number1
    DOIs
    Publication statusPublished - 1 Feb 2019

    Keywords

    • Absorption
    • Apo-carotenoids
    • Micellisation
    • Nuclear hormone receptor
    • Retinoic acid
    • SNPs
    • Vitamin A

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