Effect of vitamin D deficiency on bone formation in the chick.

1. The process of diaphyseal bone formation can be investigated by studying the rate of incorporation of radioactive precursors, administered in vivo into bone fractions of increasing density. 2. In the 4-week-old vitamin D-treated chick most of the osteoid becomes calcified within 12h and almost all within 2 days. The low-density calcified phase that is formed is converted into a higher density form and within 7 days the greater proportion of the calcified tissue is in the higher density form. 3. In the vitamin D-deficient chick of similar age the rate of calcification of osteoid is decreased, as is the rate of conversion into the higher density phase with the resultant accumulation of the lower density calcified form. 4. The higher density phase probably corresponds to hydroxyapatite and the lower density one to the ACP-pase described by Termine & Posner [(1967) Calcif. Tissue Res. 1, 8--23]. 5. The disorder in the process of calcification seems to be unrelated to the alteration in blood Ca2+ and phosphate concentrations, but related to the presence or absence of cholecalciferol.     

Effect of vitamin D3 on free-radical oxidation of lipids in low density lipoproteins in vitamin D deficiency

The lipid free radical oxidation in low density lipoproteins was investigated on D-deficiency model in vivo. The processes of lipid free radical oxidative activation in low density lipoproteins at D-deficiency occurred. The chemiluminescence kinetic parameters: the maximum intensity of the first flash and inclination angle tangent of an ascending branch of the second flash grew at D-deficiency in comparison with control group (p < 0.02 and p < 0.05, respectively). At the same time, the vitamin D3 introduction to the experimental animals diet failed result statistically reliable inclination angle tangent of an ascending branch of the second flash was reduced (p < 0.02). Increase of the products reacting with thiobarbituric acid content in low density lipoproteins in D-deficiency conditions (p < 0.001) was found. Vitamin D3 introduction to the diet reduced quantity of products reacting with thiobarbituric acid in low density lipoproteins (p < 0.01). However, their level remained higher than for the control animals (p < 0.01) as established.     

The effects of vitamin D deficiency on proteoglycan and hyaluronate constituents of chick bone

The effect of vitamin D deficiency on proteoglycan and hyaluronate constituents of cortical diaphyseal chick bone was studied. Proteoglycans in rachitic bone showed no significant change with respect to their size, composition, or amount relative to other extractable macromolecular components. In contrast, bone hyaluronate levels were raised in chicks fed on diets that were either vitamin D-deficient or depleted in calcium or phosphate, a 7-fold increase being seen in hypocalcaemic vitamin D-deficient chicks. This increase in hyaluronate was not directly related either to the absence of vitamin D or to abnormal levels of blood calcium or phosphate per se; hyaluronate levels are probably regulated by another factor, not yet identified, that is responsive to changes in vitamin D and mineral metabolism.     

Transfer ribonucleic acid methylases of bone. Studies on vitamin A and D deficiency

Methods were devised for the assay of tRNA methylases of rat bone. The activities of bone tRNA methylases are similar to those from other mammalian tissues. However, unlike reports on liver methylases, no inhibitors were found in the supernatant fraction from pH5 precipitate of bone extracts. The effects of vitamins A and D on the methylation of tRNA by cell-free extracts of rat bone were studied. Deficiency of either vitamin resulted in a decrease in the rate and extent of tRNA methylation, whereas the administration of vitamin A to hypovitaminotic-A rats and vitamin D to hypovitaminotic-D rats increased the rate and extent of tRNA methylation. These effects appear to be apart from changes in ribonuclease activity or in concentrations of calcium or magnesium. No evidence of inhibitors of tRNA methylases was found in bone extracts from vitamin-deficient rats nor of activators in bone extracts from deficient rats given vitamin A or D. The pattern of tRNA methylation under conditions of vitamin A or D deficiency was not changed, suggesting a generalized cellular deficiency. It was of significance to find that the specificity for methylation of specific bases in tRNA was different after the administration of vitamin A as contrasted with the effects of vitamin D. The possible significance of tRNA methylation to the biochemical action of the vitamins on bone is discussed.     

Effect of vitamin D deficiency on skeletal development during early growth in the rat

To define the role of vitamin D in early development, female weanling rats were grown to maturity on a vitamin D-deficient diet and mated with normal males. At Day 20 of pregnancy the weight and total body calcium of fetuses were determined. At various times after parturition, pups were sacrificed. Plasma samples were analyzed for calcium and phorphorus, and femurs were characterized as to volume, dry weight, ash weight, and total calcium. The results indicate that vitamin D deficiency with its accompanying hypocalcemia does not impair placental transfer of calcium nor weight gain of the fetus. Vitamin D deficiency does appear to increase calcium accumulation in the fetus. After parturition vitamin D is functional in maintaining a normocalcemia as early as 3 days postpartum and its importance increases with age of the neonate. Bone mineralization is clearly disrupted by Day 14 as judged by calcium content per unit bone volume and the severity of the defect increases with age. Both vitamin D and normal concentrations of calcium and phosphorus appear to be essential for proper skeletal development during early growth postpartum.     

The effect of FokI vitamin D receptor polymorphism on bone mineral density in Jordanian perimenopausal women

CONTEXT:

Osteoporosis is a polygenic, multifactorial disease that is characterized by demineralization of bone, and thus presented with decreasing bone mineral mass. Vitamin D receptor (VDR) gene polymorphisms in the 3’-end region (as determined by the enzymes BsmI and ApaI) have been inconsistently associated with bone mineral mass. Another important VDR start codon polymorphism (as determined by the enzyme FokI) has been found to be related to adult bone mineral density (BMD) in pre-and post-menopausal American women.

AIMS:

This study aims to investigate the prevalence of the FokI VDR gene polymorphism in Jordanian perimenopausal women and study its relationship with bone mineral density.

MATERIALS AND METHODS:

DNA was isolated from 90 controls (Mean age = 50.41 ± 1.29 y), and 120 patients with symptomatic vertebral fractures (Mean age = 49.14 ± 3.19 y). Restriction Fragment Length Polymorphism (RFLP) analysis of FokI was performed on DNA samples.

STATISTICAL ANALYSIS:

Data was analyzed using SPSS v19 and Microsoft Excel 2007.

RESULTS:

The results showed that in controls, the FF (−0.70 ± 0.51) genotype is associated with high lumbar spine BMD Z-score as compared to Ff (−1.25 ± 0.26) and ff (−1.66 ± 0.47) genotypes (P = 0.0095). In patients, the ff genotype was associated with lower lumbar spine BMD in T-score (−2.31 ± 0.17) and Z-score (−1.56 ± 0.09) genotypes (P = 0.031). No significant association was seen in the femoral neck BMD.

CONCLUSION:

FokI polymorphism may be associated with low BMD in our studied population; however, further studies including other polymorphisms and large sample number are needed.     

Association between vitamin D receptor gene polymorphisms and bone mineral density in Chinese women

Vitamin D receptor (VDR) is implicated in the regulation of bone mineral density (BMD). In this study, we performed a meta-analysis to evaluate the association between the VDR BsmI (rs1544410) and ApaI (rs7975232) polymorphisms and BMD in Chinese women. Literature was retrieved from PubMed and other databases. The studies on the association between VDR BsmI and ApaI genotypes and BMD at the lumbar spine, the femoral neck, the trochanter or the Ward’s triangle in Han Chinese women were included in this meta-analysis. Pooled BMD differences and 95% confidence intervals (CIs) were calculated using random- or fixed- effects model. Twenty-five eligible studies, which included 4,075 Chinese women, were identified. No significant difference was observed for either genotype when the meta-analysis was limited to premenopausal women. In postmenopausal women, BMD differences were significant for BB vs. Bb [−0.029 (95% CI −0.056, −0.002) g/m², P = 0.037] at the femoral neck, AA vs. Aa [−0.029 (95% CI −0.051, −0.006) g/m², P = 0.012] at the lumbar spine, and Aa vs. aa [0.022(95% CI 0.011, 0.033) g/m², P = 0.000] at the trochanter. These results suggest a modest but statistically significant association between VDR BsmI and ApaI polymorphisms and BMD in Chinese postmenopausal women, with higher BMD in heterozygous subjects. More epidemiological and mechanistic studies are needed to further investigate the role of VDR gene polymorphisms in regulating BMD and osteoporosis in the future.     

Skin calcium-binding protein: effect of vitamin D deficiency and vitamin D treatment

The amount of skin calcium-binding protein, evaluated using a sensitive radioimmunoassay and indirect immunofluorescence, was decreased in vitamin-D deficient rats and increased after one week vitamin D3 or 1 alpha-hydroxyvitamin D3 treatment. In vitamin D replete and in vitamin D-deficient animals, skin calcium-binding protein was not sensitive to changes in dietary and/or serum calcium concentrations. These results indicate that this protein is different from other calcium-binding proteins such as parvalbumin and calmodulin which are not vitamin D-dependent, and also different from intestinal calcium-binding protein which, in D replete animals, is sensitive to changes in dietary and serum calcium concentrations. Skin calcium-binding protein may, therefore, represent a new class of vitamin D-dependent protein.     

Effect of vitamin D deficiency on the composition and in vitro labeling of rat kidney proteins

Densitometric analysis of single-dimension gels consistently demonstrated that, in addition to rat renal calcium binding protein (CaBP) (Mr 28,000), two other kidney proteins of Mr 16,500 and Mr 18,000 were significantly enriched in their contents in the vitamin D-replete rat. Partial characterization of the Mr 18,000 and 16,500 proteins revealed that these proteins were heat-stable and distinct from calmodulin, as determined by their inability to undergo the calcium-dependent mobility shift in sodium dodecyl sulfate gels which is characteristic of calmodulin. The Mr 16,500 and Mr 18,000 kidney proteins did not cross-react with rat renal or rat intestinal CaBP antisera, as assessed by radioimmunoassay and Western blot analysis. A comparison of peptide maps of tryptic digests of these proteins and purified rat renal CaBP, as analyzed by high-pressure liquid chromatography, revealed no apparent homology. Protein synthesis studies using [35S]methionine and short-term tissue culture of kidney cortex fragments indicated that the most pronounced effect of vitamin D or 1,25 dihydroxyvitamin D3 was increased synthesis of the Mr 28,000 protein (3.2- to 4.6-fold increase compared to -D rats, P less than 0.001). Synthesis of a Mr 54,500 protein increased by 1.3- to 1.5-fold (P less than 0.05) and [35S]methionine incorporation into a Mr 66,000 protein decreased by 1.2- to 1.3-fold (P less than 0.05) in +D rats. This study represents the first detailed characterization of the effects of vitamin D on the composition and synthesis of rat kidney proteins. The data indicate that the most significant effect of vitamin D on kidney proteins is increased synthesis of the Mr 28,000 CaBP, suggesting that a major role of vitamin D in renal function is regulation of calcium transport at the distal tubule. However, dietary vitamin D or 1,25(OH)2D3 can influence the expression as well as the suppression of other specific kidney proteins.     

Relation of the estrogen receptor and vitamin D receptor polymorphisms with bone mineral density in postmenopausal Mexican-mestizo women

Background

Since osteoporosis is a complex disease characterized by low bone mineral density (BMD), which is determined by an interaction of genetics with metabolic and environmental factors, the aim of this study was to analyze the possible association among one polymorphism of VDR and two polymorphisms of ESR1; as well as their haplotypes with BMD in postmenopausal Mexican-mestizo women.

Methods

We studied 742 postmenopausal Mexican-mestizo women. A structured questionnaire for risk factors was applied and BMD was measured in the lumbar spine and total hip by dual-energy X-ray absorptiometry. DNA was obtained from blood leukocytes. One polymorphism of VDR (rs11568820) and two of ESR1 (rs2234693 and rs9340799) were studied. Real-time PCR allelic discrimination was used for genotyping. The differences between the means of the BMDs according to genotype were analyzed with covariance. Hardy–Weinberg equilibrium was tested. Pairwise linkage disequilibrium between single nucleotide polymorphisms was calculated by direct correlation r²; haplotype analysis was conducted.

Results

Rs9340799 of ESR1 and one haplotype formed by the two polymorphisms of the ESR1 were significantly associated with FN-BMD variations. Moreover, analysis of the genotype of rs11568820 of VDR and the rs2234693 of ESR1 showed no significant differences with BMD variations.

Conclusions

Our results showed that rs9340799 and one haplotype of ESR1 were significantly associated with BMD only at the femoral neck and this association remained after adjusting for covariates.     

Effect of age and the X-linked Hyp mutation on renal adaptation to vitamin D and calcium deficiency

The age (4 weeks vs 5 weeks vs 6.5 weeks) at which dietary restriction of vitamin D and calcium is initiated has a profound effect on the resulting concentration of serum calcium, urinary cAMP and on renal 25-hydroxyvitamin D3-1-hydroxylase (1-hydroxylase) activity in normal (+/Y) mice; no such age relationship is apparent in Hyp/Y littermates. After 40 days on the restrictive diet, it was found that the younger the +/Y mice at the time of diet initiation, the lower the resulting serum calcium (4 weeks less than 5 weeks less than 6.5 weeks) and the higher the urinary cAMP and 1-hydroxylase activity (4 weeks greater than 5 weeks greater than 6.5 weeks). Age on diet has no effect on serum phosphate and fractional excretion index of phosphate in +/Y and Hyp/Y littermates. Renal 1-hydroxylase activity is significantly lower than normal in the younger groups of Hyp/Y mice whereas 24-hydroxylase (25-hydroxyvitamin D3-24-hydroxylase) activity is higher than normal in all groups of Hyp/Y mice.     

Circulating serum vitamin D levels and total body bone mineral density: A Mendelian randomization study

Until recently, randomized controlled trials have not demonstrated convincing evidence that vitamin D, or vitamin D in combination with calcium supplementation could improve bone mineral density (BMD), osteoporosis and fracture. It remains unclear whether vitamin D levels are causally associated with total body BMD. Here, we performed a Mendelian randomization study to investigate the association of vitamin D levels with total body BMD using a large‐scale vitamin D genome‐wide association study (GWAS) dataset (including 79 366 individuals) and a large‐scale total body BMD GWAS dataset (including 66,628 individuals). We selected three Mendelian randomization methods including inverse‐variance weighted meta‐analysis (IVW), weighted median regression and MR‐Egger regression. All these three methods did not show statistically significant association of genetically increased vitamin D levels with total body BMD. Importantly, our findings are consistent with recent randomized clinical trials and Mendelian randomization study. In summary, we provide genetic evidence that increased vitamin D levels could not improve BMD in the general population. Hence, vitamin D supplementation alone may not be associated with reduced fracture incidence among community‐dwelling adults without known vitamin D deficiency, osteoporosis, or prior fracture.