Document Type
Article
Embargo Period
1-1-2024
Publication Date
1-1-1999
Abstract
A line of mice deficient in vitamin D binding protein (DBP) was generated by targeted mutagenesis to establish a model for analysis of DBP's biological functions in vitamin D metabolism and action. On vitamin D-replete diets, DBP-/-mice had low levels of total serum vitamin D metabolites but were otherwise normal. When maintained on vitamin D-deficient diets for a brief period, the DBP-/- but not DBP+/+, mice developed secondary hyperparathyroidism and the accompanying bone changes associated with vitamin D deficiency. DBP markedly prolonged the serum half-life of 25(OH)D and less dramatically prolonged the half-life of vitamin D by slowing its hepatic uptake and increasing the efficiency of its conversion to 25(OH)D in the liver. After an overload of vitamin D, DBP-/- mice were unexpectedly less susceptible to hypercalcemia and its toxic effects. Peak steady-state mRNA levels of the vitamin D-dependent calbindin-D9K gene were induced by 1,25(OH)2D more rapidly in the DBP-/-mice. Thus, the role of DBP is to maintain stable serum stores of vitamin D metabolites and modulate the rates of its bioavailability, activation, and end-organ responsiveness. These properties may have evolved to stabilize and maintain serum levels of vitamin D in environments with variable vitamin D availability.
Journal
Journal of Clinical Investigation
DOI
doi: 10.1172/JCI5244
Recommended Citation
Safadi, Fayez F.; Thornton, Paul; Magiera, Holly; Hollis, Bruce W.; Gentile, Michael; Haddad, John G.; Liebhaber, Stephen A.; and Cooke, Nancy E., "Osteopathy and Resistance to Vitamin D Toxicity in Mice Null for Vitamin D Binding Protein" (1999). MUSC Faculty Journal Articles. 118.
https://medica-musc.researchcommons.org/facarticles/118