Abstract
Vitamin D metabolites influence the expression of various genes involved in calcium homeostasis, cell differentiation, and regulation of the immune system. Expression of these genes is mediated by the activation of the nuclear vitamin D receptor (VDR). Previous studies have shown that a hormonally active form of vitamin D, 1alpha,25-dihydroxyvitamin D3, exerts anticoagulant effects in cultured monocytic cells. To clarify whether activation of VDR plays any antithrombotic actions in vivo, hemostatic/thrombogenic systems were examined in normocalcemic VDR knock-out (KO) mice on a high calcium diet and compared with wild type and hypocalcemic VDRKO mice that were fed a regular diet. Platelet aggregation was enhanced significantly in normocalcemic VDRKO mice compared with wild type and hypocalcemic VDRKO mice. Aortic endothelial nitric-oxide (NO) synthase expression and urinary NOx excretions were reduced in hypocalcemic VDRKO mice, but not in normocalcemic VDRKO mice. Northern blot and RT-PCR analyses revealed that the gene expression of antithrombin in the liver as well as that of thrombomodulin in the aorta, liver and kidney was down-regulated in hypo- and normocalcemic VDRKO mice. Whereas tissue factor mRNA expression in the liver and kidney was up-regulated in VDRKO mice regardless of plasma calcium level. Furthermore, VDRKO mice manifested an exacerbated multi-organ thrombus formation after exogenous lipopolysaccharide injection regardless of the calcemic conditions. These results demonstrate that activation of nuclear VDR elicits antithrombotic effects in vivo, and suggest that the VDR system may play a physiological role in the maintenance of antithrombotic homeostasis.
Highlights
In many target organs, vitamin D exerts a variety of biological functions such as calcium homeostasis, cell proliferation, and cell differentiation
Previous studies demonstrated that vitamin D receptor (VDR) knock-out (KO) mice manifest a variety of phenotypic abnormalities, including hypocalcemia, osteopenia, growth retardation, alopecia [4, 5], impaired immunity [6], hypertension with cardiac hypertrophy [7], and abnormal skeletal muscle development [8] and that most, but not all, of these phenotypic abnormalities can be rescued by normalization of serum mineral levels [6, 9]
Plasma Calcium and PTH Levels in wild type (WT) and VDRKO Mice— The plasma calcium levels of VDRKO mice fed a regular diet were significantly low compared with WT mice (Fig. 1A)
Summary
Vitamin D exerts a variety of biological functions such as calcium homeostasis, cell proliferation, and cell differentiation. To clarify whether activation of VDR plays any antithrombotic actions in vivo, hemostatic/thrombogenic systems were examined in normocalcemic VDR knock-out (KO) mice on a high calcium diet and compared with wild type and hypocalcemic VDRKO mice that were fed a regular diet. Northern blot and RT-PCR analyses revealed that the gene expression of antithrombin in the liver as well as that of thrombomodulin in the aorta, liver and kidney was down-regulated in hypo- and normocalcemic VDRKO mice.
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