vitamin a
6 interactions related to vitamin a
vitamin a + vitamin d
Vitamins A and D share the same nuclear receptor partner, RXR, and work together to regulate gene transcription affecting immunity, bone metabolism, and epithelial health. Moderate intake of both supports balanced signaling, though very high doses of one can blunt the action of the other.
vitamin a + zinc
Zinc is required for the hepatic synthesis of retinol-binding protein, the carrier that mobilizes vitamin A from liver stores into circulation. Zinc deficiency lowers circulating retinol even when liver vitamin A is adequate, and combined supplementation outperforms either alone in deficient populations.
vitamin d3 + vitamin a
Vitamin D (via VDR) and vitamin A (via RXR, the obligate heterodimer partner of VDR) bind together at vitamin D response elements to drive gene transcription for immunity, bone, and epithelial differentiation. Adequate levels of both are needed for optimal signaling, but at very high doses they can antagonize each other for bone and calcium endpoints.
iron + vitamin a
Vitamin A and beta-carotene improve absorption of non-heme iron from plant foods by forming soluble complexes with iron that protect it from binding to phytates and polyphenols in the gut. In a controlled human study, vitamin A roughly doubled iron absorption from rice and increased absorption from wheat and corn.
fat-soluble vitamins + dietary fat
Vitamins A, D, E, and K depend on bile acid micelle formation in the small intestine for absorption, and that process requires dietary fat as a trigger for bile secretion. Taking these vitamins without fat reduces absorption efficiency substantially, with studies on vitamin D showing roughly 30-50% greater absorption when taken with a meal containing fat.
alcohol + vitamin a
Alcohol depletes hepatic vitamin A by inducing cytochrome P450 enzymes (especially CYP2E1, CYP26A1, CYP26B1) that catabolize retinol. Paradoxically, vitamin A supplementation in heavy drinkers is hepatotoxic — alcohol potentiates retinol's toxicity to liver cells, and high-dose beta-carotene combined with alcohol increases liver injury.