Physiological significance of vitamin D produced in skin compared with oral vitamin D

Physiological significance of vitamin D produced in skin compared with oral vitamin D

Since the discovery of vitamin D, it has been accepted that its physiological supply is either from food or by endogenous synthesis in skin exposed to solar UV light. Yet vitamin D is a component of very few foods and its supply as a natural nutrient is unable to maintain good vitamin D status for h...

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Bibliographic Details
Published in:Journal of nutritional science (Cambridge) Vol. 11; p. e13
Main Author: Fraser, David R.
Format: Journal Article
Language:English
Published: Cambridge, UK Cambridge University Press 2022
Subjects:
25-hydroxyvitamin D production
25-hydroxyvitamin D toxicity
Angiotoxicity
Animals
Binding sites
Cholesterol
Dietary Supplements - analysis
Eggs
Enzymes
Food fortification
Liver
Metabolism
Metabolites
Nutritional Toxicity
Perspectives in Nutritional Science
Physiology
s in Nutritional Science
Skin
Sun
Sunlight
Ultraviolet radiation
Vitamin C
Vitamin D
Vitamin D Deficiency
Vitamin D transport
Vitamins
25-hydroxyvitamin D production
Vitamin D transport
25-hydroxyvitamin D toxicity
Angiotoxicity
25(OH)D, 25-hydroxy vitamin D
7-DHC, 7-dehydrocholesterol
DBP, vitamin D-specific-binding protein
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Summary:Since the discovery of vitamin D, it has been accepted that its physiological supply is either from food or by endogenous synthesis in skin exposed to solar UV light. Yet vitamin D is a component of very few foods and its supply as a natural nutrient is unable to maintain good vitamin D status for human populations. One aspect of vitamin D physiology that has been ignored is that the mechanisms for its transport and processing from these two sources are quite different. Excess intake of vitamin D causes hypercalcaemic toxicity. However, experiments with different animal species have shown that long-term supply of oral vitamin D in apparently non-toxic amounts causes atherosclerosis in large arteries. A mechanism for this toxicity is proposed. Alternative strategies for addressing widespread vitamin D deficiency by food fortification should be considered in light of the angiotoxicity caused by oral vitamin D in animal experiments.
ISSN:2048-6790
2048-6790
DOI:10.1017/jns.2022.11