UMLS:C0020438 - FACTA Search

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Query: UMLS:C0020438 (hypercalciuria)
2,502 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calcium homeostasis by the kidneys and parathyroids is mediated by the calcium-sensing receptor (CaSR), which is located on 3q21-q24 and belongs to family C of the superfamily of G-protein coupled receptors that includes those for metabotropic glutamate, certain pheromones, and gamma-amino butyric acid (GABA-B). Inactivating CaSR mutations result in familial benign hypercalcemia (FBH), or familial hypocalciuric hypercalcemia (FHH), whereas activating mutations result in hypocalcemic hypercalciuria. However, not all FBH patients have CaSR mutations, which, together with the mapping of another FBH locus to 19p13.3, suggests that additional CaSRs or second messengers may be involved. These may be identified by positional cloning, and we therefore performed a genomewide search, using chromosome-specific sets of microsatellite polymorphisms, in an Oklahoma family with an FBH variant (FBHOk), for which linkage to 3q and 19p had been excluded. Linkage was established between FBHOk and eight chromosome 19q13 loci, with the highest LOD score, 6.67 (recombination fraction.00), obtained with D19S606. Recombinants further mapped FBHOk to a <12-cM interval flanked by D19S908 and D19S866. The calmodulin III gene is located within this interval, and DNA sequence analysis of the coding region, the 5' UTR, and part of the promoter region in an individual affected with FBHOk did not detect any abnormalities, thereby indicating that this gene is unlikely to be implicated in the etiology of FBHOk. This mapping of FBHOk to chromosome 19q13 will facilitate the identification of another CaSR or a mediator of calcium homeostasis.
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PMID:Localization of familial benign hypercalcemia, Oklahoma variant (FBHOk), to chromosome 19q13. 991 58

The human calcium-sensing receptor (CaSR) is a 1078-amino-acid cell surface protein which is expressed in the parathyroids, thyroid cells and the kidney, and is a member of the family of G protein-coupled receptors. The CaSR allows regulation of parathyroid hormone (PTH) secretion and renal tubular calcium reabsorption in response to alterations in extracellular calcium concentrations. The human CaSR gene is located on chromosome 3q13.3-q21, and loss of function CaSR mutations have been reported in the hypercalcaemic disorders of familial benign (hypocalciuric) hypercalcaemia (FBH or FHH) and neonatal severe primary hyperparathyroidism (NSHPT). In addition, gain of function CaSR mutations have been observed in a novel familial syndrome of hypocalcaemia with hypercalciuria. The human CaSR gene on chromosome 3q13.3-q21 is likely to be one of several, as two other loci for FBH have been located on chromosome 19p and 19q13. Cloning and characterisation of these genes will help to further elucidate the mechanisms regulating extracellular calcium.
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PMID:Disorders of the calcium-sensing receptor. 992 Apr 7

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

Familial hyperparathyroidism (HPT), characterized by hypercalcemia and hypercalciuria, and familial benign hypocalciuric hypercalcemia (FHH) are the most common causes of hereditary hypercalcemia. The calcium-sensing receptor (CaR) regulates PTH secretion and renal calcium excretion. Heterozygous inactivating mutations of the gene cause FHH, whereas CaR gene mutations have not been demonstrated in HPT. In a kindred with 20 affected individuals, the hypercalcemic disorder segregated with inappropriately higher serum PTH and magnesium levels and urinary calcium levels than in unaffected members. Subtotal parathyroidectomy revealed parathyroid gland hyperplasia/adenoma and corrected the biochemical signs of the disorder in seven of nine individuals. Linkage analysis mapped the condition to markers flanking the CaR gene on chromosome 3q. Sequence analysis revealed a mutation changing phenylalanine to leucine at codon 881 of the CaR gene, representing the first identified point mutation located within the cytoplasmic tail of the CaR. A construct of the mutant receptor (F881L) was expressed in human embryonic kidney cells (HEK 293), and demonstrated a right-shifted dose-response relationship between the extracellular and intracellular calcium concentrations. The hypercalcemic disorder of the present family is caused by an inactivating point mutation in the cytoplasmic tail of the CaR and displays clinical characteristics atypical of FHH and primary HPT.
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PMID:Familial hypercalcemia and hypercalciuria caused by a novel mutation in the cytoplasmic tail of the calcium receptor. 1084 46

The calcium-sensing receptor (CaR) is a G-protein-coupled receptor that is widely expressed, has tissue-specific functions, and regulates cell growth. Activating mutations of this receptor cause autosomal dominant hypocalcemia, a syndrome characterized by hypocalcemia and hypercalciuria. The identification of a family with an activating mutation of the CaR (Thr151Met) in which hypocalcemia cosegregates with several unusual neoplasms led us to examine the transforming effects of this mutant receptor. Transfection of NIH/3T3 cells with the mutant but not the normal receptor supported colony formation in soft agar at subphysiologic calcium concentrations. The mutant CaR causes a calcium-dependent activation of the extracellular signal-regulated protein kinase (ERK) 1/2 and Jun-N-terminal kinase/stress-activated (JNK/ SAPK) pathways, but not P38 MAP kinase. These findings contribute to a growing body of information suggesting that this receptor plays a role in the regulation of cellular proliferation, and that aberrant activation of the mutant receptor in this family may play a role in the unusual neoplastic manifestations.
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PMID:Calcium-induced activation of a mutant G-protein-coupled receptor causes in vitro transformation of NIH/3T3 cells. 1093 95

Hypercalciuria is a biological syndrome defined as excretion in the urine of more than 0.1 mmol/kg/24 hours of calcium in the absence of dietary manipulation. A number of endocrine, renal, and bone diseases can cause hypercalciuria. Urinary calcium excretion is substantially influenced by dietary intakes of calcium, sodium, protein, carbohydrates, alcohol, and potassium: a poorly balanced diet can result in hypercalciuria. Recently, there has been a burst of interest in the molecular underpinnings of rare nephrolithiasis syndromes, which have been shown to result from mutations in the CLCN5 chloride channel gene. Mutations affecting the calcium-sensing receptor (CaSR) have been identified in other forms of hypercalciuria. Idiopathic hypercalciuria is defined as hypercalciuria that persists after correction of dietary imbalances and has no detectable cause. The classification suggested by Pak ("absorptive" hypercalciuria [with three types] and "renal" hypercalciuria) is controversial and of little assistance in clinical practice. Three mechanisms can be incriminated in idiopathic hypercalciuria: increased intestinal absorption of calcium, defective reabsorption of calcium by the renal tubule, and increased bone resorption. Overexpression of the vitamin D receptor (VDR) and deficiencies in renal tubule enzymes may also be involved. Bone mineral density is moderately decreased in idiopathic hypercalciuria, particularly in the renal type. The risk of vertebral fracture seems increased, however. Overproduction of calcitriol and cytokines that stimulate bone resorption have been incriminated in the bone loss. Treatment of the cause is essential in secondary hypercalciuria (dietary advice, treatment of an underlying disease, etc.). A diet low in sodium and meat and containing no more than 800 mg of calcium per day is advocated in idiopathic hypercalciuria. Hydrochlorothiazide therapy is warranted in patients with osteopenia and an inadequate response to dietary therapy.
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PMID:Hypercalciuria. 1119 13

A 6-year-old boy presented with persistent hypercalcemia, hypercalciuria and nephrocalcinosis from early infancy. His 40-year-old father also had hypercalcemia and hypercalciuria. In both individuals serum values of intact parathyroid hormone (PTH) were repeatedly normal. Although these findings suggest a functional abnormality of the calcium-sensing receptor (CaR), no mutations in coding regions of the CaR gene could be demonstrated.
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PMID:Familial hypercalcemia and hypercalciuria: no mutations in the Ca2+-sensing receptor gene. 1151 94

Activating mutations of the calcium-sensing receptor (CaR) can cause isolated hypoparathyroidism. Treatment of hypocalcemia in these patients remains to be optimized, because the use of 1-hydroxylated vitamin D3 derivatives can cause hypercalciuria and nephrocalcinosis. We identified activating CaR mutations in 8 (42%) of 19 unrelated probands with isolated hypoparathyroidism. The severity of hypocalcemic symptoms at diagnosis was independent of age, mutation type, or mode of inheritance but was related to the degree of hypocalcemia; serum Ca was 1.97 +/- 0.08, 1.82 +/- 0.14, and 1.54 +/- 0.22 mmol/liter, respectively, in asymptomatic (n = 7), mildly symptomatic (n = 8), and severely symptomatic patients (n = 6). Hypocalcemia segregated with the CaR mutation, but no phenotype-genotype relationships were identified. Fourteen patients received regular 1-hydroxylated vitamin D3 treatment (mean duration, 7.2 +/- 4.9 yr). Nine had hypercalciuric episodes, which were associated with nephrocalcinosis in eight cases. Serum Ca during treatment predicted hypercalciuria and nephrocalcinosis poorly, because either or both of the latter could develop in hypocalcemic patients. Thus, mutational analysis of the CaR gene should be considered early in the work-up of isolated hypoparathyroidism. Treatment options should be weighed carefully in patients with serum Ca below 1.95 mmol/liter. The risk of nephrocalcinosis during treatment can be minimized by carefully monitoring urinary Ca excretion.
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PMID:Activating mutations of the calcium-sensing receptor: management of hypocalcemia. 1170 98

Familial hypocalciuric hypercalcemia (FHH) is an autosomal dominant disease characterized by mild hypercalcemia, an inappropriately high parathyroid hormone level, and absence of hypercalciuria. Heterozygous inactivating mutations of calcium-sensing receptor (CaSR) are found in about two thirds of patients with FHH. Histologic examination of parathyroid glands in FHH is reported to show normal histology or chief cell hyperplasia. Thus, histologic features of the parathyroid glands in FHH vary, and there is no clear histologic criterion that indicates FHH. The authors have encountered three hypercalcemic patients with characteristic histologic features of enlarged parathyroid glands. Clusters of parenchymal cells were mixed with fat cells, and the area of fat cells was 33% to 49% of the total area. These features are similar to those described as parathyroid lipohyperplasia. Postoperative evaluation showed that fractional excretion of calcium was low in these patients. Direct sequencing of the polymerase chain reaction product showed that the first patient was heterozygous for an already reported inactivating mutation of CaSR (P55L). The second patient was also heterozygous for a novel inactivating mutation (R220W). The third was homozygous for an inactivating mutation (Q27R). These results indicate that histologic features of parathyroid lipohyperplasia suggest the presence of inactivating mutations of CaSR.
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PMID:Inactivating mutations of calcium-sensing receptor results in parathyroid lipohyperplasia. 1176 15

Calcium-sensing receptor (CaSR) plays an essential role in regulating secretion of parathyroid hormone. After the identification of CaSR, some cases of familial hypocalciuric hypercalcemia (FHH) were shown to have heterozygous inactivating mutations of CaSR. However, linkage study showed that there are additional two genetic loci for FHH in addition to the chromosomal location of CaSR gene. Furthermore, one family with heterozygous inactivating mutation of CaSR was shown to exhibit hypercalcemia with hypercalciuria. Therefore, heterozygous inactivating mutation of CaSR is not synonymous with FHH. In addition, patients with neonatal severe hyperparathyroidism were shown to have homozygous or compound heterozygous inactivating mutations of CaSR.
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PMID:[Familial hypocalciuric hypercalcemia and neonatal severe hyperparathyroidism caused by inactivating mutations of calcium-sensing receptor]. 1185 21

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