Comparative metabolism and requirement of vitamin K in chicks and rats

Comparative metabolism and requirement of vitamin K in chicks and rats

The metabolic basis for the high vitamin K requirement of chicks compared with rats was investigated. When chicks and rats were fed the same diet, containing 500 micrograms phylloquinone/kg, the total amounts of phylloquinone and its epoxide metabolite found in the liver and plasma were similar in b...

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Bibliographic Details
Published in:The Journal of nutrition Vol. 122; no. 12; p. 2354
Main Authors: Will, B H, Usui, Y, Suttie, J W
Format: Journal Article
Language:English
Published: United States 01-12-1992
Subjects:
Alkylation
Animals
Chickens
Diet
Epoxy Compounds - metabolism
Feces - chemistry
Liver - metabolism
Male
Nutritional Requirements
Rats
Vitamin K - analogs & derivatives
Vitamin K - metabolism
Vitamin K 1 - administration & dosage
Vitamin K 1 - blood
Vitamin K 1 - metabolism
Vitamin K 2 - analogs & derivatives
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Summary:The metabolic basis for the high vitamin K requirement of chicks compared with rats was investigated. When chicks and rats were fed the same diet, containing 500 micrograms phylloquinone/kg, the total amounts of phylloquinone and its epoxide metabolite found in the liver and plasma were similar in both species. However, phylloquinone 2,3-epoxide was present in high concentrations in chick liver and serum but not in rat liver and serum. This metabolite of the vitamin is normally reduced by a hepatic vitamin K epoxide reductase. The activity of this enzyme in chicks was approximately 10% of that in rats, and the inability of chicks to effectively recycle the epoxide of vitamin K seems to be the major factor in its high requirement. Other species differences in vitamin K metabolism were observed. Much higher concentrations of bacterial menaquinones were present in rat feces compared with chick feces, but neither species had appreciable hepatic concentrations of menaquinones. Chicks, but not rats, were found to have a liver concentration of menaquinone-4 that exceeded that of phylloquinone. This vitamer was present even when its recognized precursor, menadione, was not present in the diet, and the data indicate that chicks convert phylloquinone to menaquinone-4 under the conditions of these experiments. The mechanism of this conversion was not established.
ISSN:0022-3166
DOI:10.1093/jn/122.12.2354