Porcine intestinal metabolism of excess vitamin a differs following vitamin a supplementation and liver consumption.

Vitamin A is a well-established teratogen in all animal species. A number of case reports also suggest a teratogenic potential of vitamin A in humans. A possible teratogenic risk of dietary liver vitamin A intake, the kinetics of vitamin A and its metabolites in humans after intake of either a vitamin A supplement or a liver meal have been studied. Major differences were described for the kinetics of all-trans-retinoic acid (all-trans-RA), which occurred at much higher concentrations after supplementation than after liver consumption. Therefore, we investigated whether the intestine may be responsible for the differences in vitamin A metabolism after supplementation or liver feeding. We found that cytosolic fractions of porcine enterocytes oxidized retinol to all-trans-RA in vitro with a K(m) of 94-96 micromol/L and a V(max) of 7.9-8.6 pmol/(min x mg protein). In an in vivo approach, the portal vein and the central vein (external jugular vein) of a pig were cannulated. In two subsequent experiments, the pig was given a vitamin A supplement or liver. Plasma samples were taken from portal and central veins. Comparison of retinoid levels in these veins indicated that all-trans-RA was already formed from supplemental vitamin A in the intestine and released into the systemic circulation. Two major metabolic pathways were additionally present in the pig, leading to the formation of glucuronides of all-trans-RA and retinol itself. Our results indicate that intestinal metabolism contributes to the elevated levels of all-trans-RA in the systemic circulation after supplementation with vitamin A, but not after consumption of liver.