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  • Effects of provitamin A or non-provitamin A carotenoids on liver xenobiotic-metabolizing enzymes in mice.

Effects of provitamin A or non-provitamin A carotenoids on liver xenobiotic-metabolizing enzymes in mice.

Nutrition and cancer (1997-01-01)
P Astorg, S Gradelet, J Leclerc, M H Siess
RESUMO

To determine whether carotenoids can modulate xenobiotic-metabolizing enzymes in mice, catalytic activities of several phase I and phase II enzymes have been measured in liver microsomes and cytosol of male Swiss mice fed diets containing beta-carotene, beta-apo-8'-carotenal, canthaxanthin, or astaxanthin (300 mg/kg diet) or treated with 3-methylcholanthrene (3-MC) (3 times at 50 mg/kg ip) for 15 days. Canthaxanthin increased CYP 1A-dependent activities: ethoxyresorufin O-deethylase (EROD) was increased 3-fold, pentoxyresorufin dealkylase (PROD) was increased 2.5-fold, and methoxyresorufin O-demethylase (MROD) was increased 1.6-fold; these increases were much less than those induced by 3-MC, which induced EROD 49-fold, PROD 10-fold, and MROD 4-fold. 3-MC, but not canthaxanthin, also increased relative liver weight, liver P-450 content, NADH-cytochrome c reductase, and benzoxyresorufin dearylase. The three other carotenoids had little or no effect on phase I enzymes. Among the phase II enzyme activities, only NADPH-quinone reductase was slightly increased by 3-MC and carotenoids, except beta-carotene. Among the three carotenoids that have previously been found to be powerful CYP 1A inducers in the rat, i.e., canthaxanthin, astaxanthin, and beta-apo-8'-carotenal, only canthaxanthin shows some (weak) inducing effect of CYP 1A in the 3-MC-responsive Swiss mice, indicating that the mechanism of CYP 1A induction by carotenoids may not be the same as that by 3-MC. In addition, the fact that beta-carotene has no effect on the tested enzymes does not support the hypothesis that the modulation of xenobiotic metabolism is a possible mechanism for the antimutagenic and anticarcinogenic effects of beta-carotene, which have been demonstrated in several in vivo models in mice.

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Sigma-Aldrich
trans-β-Apo-8′-carotenal, ≥96.0% (UV)
Sigma-Aldrich
trans-β-Apo-8′-carotenal, ~20% apocarotenal basis (UV-vis), suspension (oily)