Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020438 (hypercalciuria)
2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Absorptive hypercalciuria (a stone-forming condition) is characterized by gut hyperabsorption of calcium, hypercalciuria, and reduced bone density. Inasmuch as these features implicate enhanced calcitriol action in gut and bone, we analyzed the vitamin D receptor (VDR) gene to ascertain whether an abnormality of this gene marks patients with intestinal hyperabsorption of calcium. We have compared the frequency of a restriction fragment length polymorphism (Bsm I) associated with different alleles of the VDR gene in a group of 33 well characterized absorptive hypercalciuric patients and a group of 36 normal race- and age-matched control subjects. There was no difference between the distribution of the VDR alleles in the patient population when compared with the normal population. The coding region of VDR messenger RNA was also normal, as determined by both DNA sequence analysis and chemical mismatch cleavage analysis of copy DNA from 11 index absorptive hypercalciuric patients. On the basis of these results, we propose that the enhanced intestinal calcium absorption invariably seen in absorptive hypercalciuria and attendant symptoms of this disorder are not attributable to mutations of the VDR and are not linked to a common VDR genotype.
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PMID:Evidence for normal vitamin D receptor messenger ribonucleic acid and genotype in absorptive hypercalciuria. 755 81

It is now recognized that it is casual exposure to sunlight that provides most humans with their vitamin D requirement. During exposure to sunlight, the high energy ultraviolet B photons (290-315 mm) photolyzes cutaneous stores of 7-dehydrocholesterol to previtamin D3. Once formed, previtamin D3 undergoes a thermal isomerization that results in the formation of vitamin D3. Vitamin D3 is biologically inert and requires successive hydroxylations in the liver and kidney to form its biologically active hormone 1,25-dihydroxyvitamin D3. The major physiologic function of 1,25-dihydroxy-vitamin D3 is to maintain blood calcium in the normal range. It accomplishes this by increasing the efficiency of intestinal calcium absorption and mobilizing stem cells to become osteoclasts which, in turn, remove calcium from the bone. It is now recognized that there are a variety of calcium metabolic disorders that are related to defects in the synthesis and metabolism of vitamin D. Chronic granulomatous disorders are often associated with hypercalciuria and hypercalcemia. The mechanism by which this occurs is that activated macrophages within granulomatous tissue, in an unregulated manner, convert 25-hydroxyvitamin D to 1,25-dihydroxyvitamin D. Besides its calcemic activity 1,25-dihydroxyvitamin D3 is a potent antiproliferative factor for cells and tissues that possess its vitamin D receptor. This has clinical utility in that 1,25-dihydroxyvitamin D3 and its analogs have been successfully used for the treatment of the hyperproliferative skin disease psoriasis.
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PMID:Defects in the synthesis and metabolism of vitamin D. 758 27

Human idiopathic hypercalciuria (IH) is a common cause of hypercalciuria that contributes to calcium oxalate nephrolithiasis. The disorder is characterized by normocalcemia, increased intestinal Ca absorption, and normal or elevated circulating 1,25(OH)2D3. Intestinal Ca hyperabsorption, which is a source of excess urine Ca excretion, may result from either a primary increase in renal 1,25(OH)2D3 production; a primary, vitamin D-independent defect in enterocyte regulation of Ca transport; or a secondary increase in 1,25(OH)2D3 production in response to a defect in renal tubular Ca reabsorption. Breeding male and female Sprague Dawley rats with spontaneous hypercalciuria has resulted in offspring with hypercalciuria, increased intestinal Ca absorption, and normal serum 1,25(OH)2D3. In male IH rats, vitamin D receptor (VDR) content measured by saturation binding and western blotting revealed a twofold increase in VDR number in the duodenum, kidney cortex, and splenic monocytes. The molecular basis for the increase in VDR appears not to be due to increased VDR gene expression, but may result from increased efficiency of translation of the VDR message or prolongation of the half-life of VDR. Comparable migration of normal and IH intestinal VDR on western blots and of intestinal VDR mRNA on northern blots suggests that the abundant VDR in IH rat intestine is not a mutation of the wild-type VDR. These observations strongly suggest that, in IH rats, normal serum 1,25(OH)2D3 and increased VDR results in increased VDR-1,25(OH)2D3 complexes and enhanced biologic actions of 1,25(OH)2D3, including increased intestinal Ca transport. IH in rats may be the first genetic disorder due to a pathologic increase in the VDR.
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PMID:Hypercalciuria: lessons from studies of genetic hypercalciuric rats. 787 46

In humans, familial or idiopathic hypercalciuria (IH) is a common cause of hypercalciuria and predisposes to calcium oxalate nephrolithiasis. Intestinal calcium hyperabsorption is a constant feature of IH and may be due to either a vitamin D-independent process in the intestine, a primary overproduction of 1,25-dihydroxyvitamin D3 [1,25(OH)2D3], or a defect in renal tubular calcium reabsorption. Selective breeding of spontaneously hypercalciuric male and female Sprague-Dawley rats resulted in offspring with hypercalciuria, increased intestinal calcium absorption, and normal serum 1,25(OH)2D3 levels. The role of the vitamin D receptor (VDR) in the regulation of intestinal calcium absorption was explored in 10th generation male genetic IH rats and normocalciuric controls. Urine calcium excretion was greater in IH rats than controls (2.9 +/- 0.3 vs. 0.7 +/- 0.2 mg/24 h, P < 0.001). IH rat intestine contained twice the abundance of VDR compared with normocalciuric controls (536 +/- 73 vs. 243 +/- 42 nmol/mg protein, P < 0.001), with no difference in the affinity of the receptor for its ligand. Comparable migration of IH and normal intestinal VDR on Western blots and of intestinal VDR mRNA by Northern analysis suggests that the VDR in IH rat intestine is not due to large deletion or addition mutations of the wild-type VDR. IH rat intestine contained greater concentrations of vitamin D-dependent calbindin 9-kD protein. The present studies strongly suggest that increased intestinal VDR number and normal levels of circulating 1,25(OH)2D3 result in increased functional VDR-1,25(OH)2D3 complexes, which exert biological actions in enterocytes to increase intestinal calcium transport. Intestinal calcium hyperabsorption in the IH rat may be the first example of a genetic disorder resulting from a pathologic increase in VDR.
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PMID:Increased intestinal vitamin D receptor in genetic hypercalciuric rats. A cause of intestinal calcium hyperabsorption. 838 25

Vitamin D has been discovered at the beginning of this century. 7-Dehydrocholesterol is converted to vitamin D3 in the skin and after several hydroxylations it is further converted to the active hormonal form, 1 alpha,25-(OH)2D3. Vitamin D stimulates the absorption of calcium and phosphate and is an essential link in bone resorption and formation and calcium metabolism. 1 alpha,25-(OH)2D3 acts through a vitamin D receptor. These receptors are not only present in clinical target organs (kidney, gut, liver) but can also be found in a wide variety of "non-classical" tissues (keratinocytes, cells belonging to the immune system). Moreover, numerous cells (keratinocytes, macrophages) can locally synthetize or can be induced to synthetize 1 alpha,25-(OH)2D3 and these cells are responsive to its action. When these data are combined, a possible paracrine function of 1 alpha,25-(OH)2D3 can be suspected. Via this paracrine function 1 alpha,25-(OH)2D3 can suppress the cellular and humoral immunity. Based on the discovery of these effects on immune cells in vitro it became clear that 1 alpha,25-(OH)2D3 might be an interesting molecule to prevent autoimmune diseases and organ transplantation. This has already been shown in several animal models (Heymann nephritis, diabetes mellitus, experimental allergic-encephalomyelitis, lupus). 1 alpha,25-(OH)2D3 demonstrates however some side-effects (hypercalciuria, hypercalcemia, bone resorption) and for this reason 1 alpha,25-(OH)2D3-analogs are developed with dissociated effects i.e. an activity profile that allows a specific action on non-classical tissues without calcemic effects. Some chemical modifications of the side chain, A and/or CD-ring results in "superanalogs" with 10 to 100-fold more activity on cell differentiation and the immune system then 1 alpha,25-(OH)2D3 but with less calcemic activity in vivo. These biological effects can be explained by differences in pharmacokinetics (low affinity for the plasma vitamin D-binding protein and short extracellular half-life) and increased intracellular activation and gen transactivation. Preclinical research must still be done to select the most potent superanalogs and to find the exact protocols for the prevention and treatment of autoimmune diseases and rejection of transplanted organs.
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PMID:[Immune modulation by vitamin D analogs in the prevention of autoimmune diseases]. 857 69

Hypercalciuria in genetic hypercalciuric stone-forming (GHS) rats is accompanied by intestinal Ca hyperabsorption with normal serum 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] levels, elevation of intestinal, kidney, and bone vitamin D receptor (VDR) content, and greater 1,25(OH)2D3-induced bone resorption in vitro. To test the hypothesis that hyperresponsiveness of VDR gene expression to 1,25(OH)2D3 may mediate these observations, male GHS and wild-type Sprague- Dawley normocalciuric control rats were fed a normal Ca diet (0.6% Ca) and received a single intraperitoneal injection of either 1,25(OH)2D3 (10-200 ng/100 g body wt) or vehicle. Total RNAs were isolated from both duodenum and kidney cortex, and the VDR and calbindin mRNA levels were determined by Northern blot hybridization using specific cDNA probes. Under basal conditions, VDR mRNA levels in GHS rats were lower in duodenum and higher in kidney compared with wild-type controls. Administration of 1,25(OH)2D3 increased VDR gene expression significantly in GHS but not normocalciuric animals, in a time- and dose-dependent manner. In vivo half-life of VDR mRNA was similar in GHS and control rats in both duodenum and kidney, and was prolonged significantly (from 4-5 to > 8 h) by 1,25(OH)2D3 administration. Neither inhibition of gene transcription by actinomycin D nor inhibition of de novo protein synthesis with cycloheximide blocked the upregulation of VDR gene expression stimulated by 1,25(OH)2D3 administration. No alteration or mutation was detected in the sequence of duodenal VDR mRNA from GHS rats compared with wild-type animals. Furthermore, 1,25(OH)2D3 administration also led to an increase in duodenal and renal calbindin mRNA levels in GHS rats, whereas they were either suppressed or unchanged in wild-type animals. The results suggest that GHS rats hyperrespond to minimal doses of 1,25(OH)2D3 by an upregulation of VDR gene expression. This hyperresponsiveness of GHS rats to 1,25(OH)2D3 (a) occurs through an increase in VDR mRNA stability without involving alteration in gene transcription, de novo protein synthesis, or mRNA sequence; and (b) is likely of functional significance, and affects VDR-responsive genes in 1, 25(OH)2D3 target tissues. This unique characteristic suggests that GHS rats may be susceptible to minimal fluctuations in serum 1, 25(OH)2D3, resulting in increased VDR and VDR-responsive events, which in turn may pathologically amplify the actions of 1,25(OH)2D3 on Ca metabolism that thus contribute to the hypercalciuria and stone formation.
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PMID:Hyperresponsiveness of vitamin D receptor gene expression to 1,25-dihydroxyvitamin D3. A new characteristic of genetic hypercalciuric stone-forming rats. 959 78

To evaluate whether there is an increase in vitamin D receptor (VDR) concentration which could raise intestinal calcium absorption in absorptive hypercalciuric (AH) patients and promote hypercalciuria, we measured VDR concentration and VDR mRNA levels in skin fibroblasts from 16 patients with AH and 17 age-matched normal subjects before and following a 16-hour incubation in the presence of 10(-8) M 1,25-dihydroxyvitamin D3 [1,25(OH)2D3]. There were no significant differences in VDR concentration between normal subjects and AH patients in the basal state (30 +/- 11 vs. 30 +/- 15 ng/mg protein, respectively) or following 1,25(OH)2D3-mediated upregulation (43 +/- 18 vs. 42 +/- 16 ng/mg protein) as measured by immunoblot methodology. Analysis of VDR mRNA/beta-actin mRNA ratios demonstrated no significant differences between normal subjects and AH patients prior to (2.1 +/- 1.7 vs. 1.8 +/- 2.4) or following (2.7 +/- 2.8 vs. 1.9 +/- 1.8) 1,25(OH)2D3 exposure. As a measure of VDR bioactivity, we quantitated 1,25(OH)2D3-mediated induction of 25-hydroxyvitamin D3-24-hydroxylase. Again, no significant differences were observed between normal subjects and all patients (2.1 +/- 1.6 vs. 1.9 +/- 1.6 pmol/mg/30 min, respectively). These findings indicate that there is neither an increase in VDR concentration in skin fibroblasts, a recognized vitamin D responsive cell, nor increased sensitivity to upregulation of VDR numbers by 1, 25(OH)2D3 in patients with AH. This suggests an alternative cause of intestinal hyperabsorption of calcium in AH other than alteration of the VDR number.
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PMID:Normal vitamin D receptor concentration and responsiveness to 1, 25-dihydroxyvitamin D3 in skin fibroblasts from patients with absorptive hypercalciuria. 970 66

Nearly 50 years after its initial description by Dr. F. Albright, the term idiopathic hypercalciuria (IH) is still in use. The exact mechanism of hypercalciuria is still unknown despite extensive pathophysiologic investigations; recent advances represent the focus of this review. A precise definition of true IH is proposed, taking into account the various nutritional conditions influencing calcium excretion. The potential pathogenic mechanisms are discussed, and the limits of the classical Pak's pathophysiological classification are recalled. The evidence supporting the role of an increased intestinal calcium absorption, a defect in renal tubular calcium reabsorption, or an increased bone loss as a primary mechanism in IH are successively examined. Since overall available human data indicates that all three mechanisms may be found in IH, the hypothesis that a broader disorder encompassing all these various abnormalities may be involved in IH is discussed. Three global hypotheses to account for IH physiopathology are examined: a diffuse defect in fatty acid content of cell membranes, an increased expression of the vitamin D receptor of the 25(OH) vitamin D 1 alpha-hydroxylase, or of the calcium sensor receptor and a monocyte disease. Finally, the available clinical data justifying the therapeutic approaches are reviewed, and guidelines for dietary recommendations regarding calcium and also animal protein, sodium chloride, alcohol, carbohydrate, phosphate, and potassium intakes are proposed, and drug therapy indications are discussed.
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PMID:Pathophysiology and treatment of idiopathic hypercalciuria. 972 2

Calcium is the principal crystalline constituent in up to 80% of kidney stones. Epidemiologic studies have suggested that genetic predisposition plays a major role in the etiology of this condition. This study evaluates by a candidate-gene approach whether the vitamin D receptor (VDR) locus on chromosome 12q12-14 is implicated in idiopathic hypercalciuria and calcium nephrolithiasis in a cohort of 47 French Canadian pedigrees. These comprised 54 sibships with a total of 303 pairs of siblings concordant for > or =1 stone episode. Evidence is provided for linkage to nephrolithiasis with microsatellite marker D12S339 (near the VDR locus, P = 0.01), as well as with flanking markers (D12S1663: P = 0.03 and D12S368: P = 0.01). Inclusion of unaffected sibs in the analyses also supported evidence for linkage. Quantitative trait linkage analysis of urinary calcium excretion yielded linkage to some, but not all, markers. This appears to be the first study to suggest linkage for idiopathic calcium stone formation.
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PMID:Suggestive evidence for a susceptibility gene near the vitamin D receptor locus in idiopathic calcium stone formation. 1023 86

Genetic factors are important determinants for kidney stone formation. Cystinuria, primary hyperoxaluria, and X-linked nephrolithiasis (Dent's disease) are monogenic kidney stone diseases for which responsible genes have been identified. Familial stone disease with hyperuricosuria or renal tubular acidosis has been described in several clinical settings. Idiopathic hypercalciuria is the most common stone risk factor, and evidence in humans and in a rat model indicates that hypercalciuria is a complex, polygenic trait. Some candidate genes for idiopathic hypercalciuria are suggested by the known physiology, including those encoding the vitamin D receptor, the 1 alpha-hydroxylase of vitamin D, the calcium-sensing receptor, the renal sodium-dependent phosphate transporter, and chloride channels, but others remain to be identified. The multifaceted physiology of hypercalciuria may reflect the combined effects of polymorphisms in several genes.
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PMID:Nephrolithiasis. 1043 76


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