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)

Familial hypomagnesaemia with hypercalciuria and nephrocalcinosis (FHHNC, MIM 248250) is a complex renal tubular disorder characterised by hypomagnesaemia, hypercalciuria, advanced nephrocalcinosis, hyposthenuria and progressive renal failure. The mode of inheritance is autosomal recessive. A primary defect in the reabsorption of magnesium in the medullary thick ascending limb of the loop of Henle (mTAL) has been proposed to be essential in FHHNC pathophysiology. To identify the underlying genetic defect we performed linkage analysis in eight families, including three with consanguineous marriages. We found linkage to microsatellite markers on chromosome 3q27 with a maximum two-point lod score (Zmax) of 5.208 for D3S3530 without evidence for genetic heterogeneity. Haplotype analysis revealed crucial recombination events reducing the critical interval to 6.6cM. Recently, mutations in the gene PCLN-1, mapping to 3q27 and coding for paracellin-1, were identified by Simon et al (1999) as the underlying genetic defect in FHHNC. Paracellin-1 represents a renal tight junction protein predominantly expressed in the TAL. Mutational analysis in our patient cohort revealed eight different mutations in the PCLN-1 gene, within six novel mutations. In seven of 13 mutant alleles we detected a Leu151 substitution without evidence for a founder effect. Leu151 is a residue of the first extracellular loop of paracellin-1, the part of the protein expected to bridge the intercellular space and to be important for paracellular conductance. This study confirms the implication of paracellin-1 defects in FHHNC and points to a predominant role of this protein in the paracellular reabsorption of divalent cations in the TAL.
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PMID:Familial hypomagnesaemia with hypercalciuria and nephrocalcinosis maps to chromosome 3q27 and is associated with mutations in the PCLN-1 gene. 1087 61

Familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC) is an autosomal recessive tubular disorder that is frequently associated with progressive renal failure. The primary defect is related to impaired tubular reabsorption of magnesium and calcium in the thick ascending limb of Henle's loop. Mutations in PCLN-1, which encodes the renal tight junction protein paracellin-1 (claudin-16), were identified as the underlying genetic defects. Comprehensive clinical data and the results of PCLN-1 mutation analysis of 25 FHHNC families with 33 affected individuals are presented. Patients presented mainly with urinary tract infections, polyuria, and hematuria at a median age of 3.5 yr. At the time of diagnosis, the GFR was already decreased to <60 ml/min per 1.73 m(2) for 11 patients. Twelve patients exhibited progression to end-stage renal disease, at a median age of 14.5 yr. Treatment with magnesium salts and thiazides seemed to have no effect on the progression of the disease. Genotype analysis revealed PCLN-1 mutations in all except three mutant alleles (94%). Fifteen different mutations were observed, including eight novel mutations. The accumulation of mutations affecting the first extracellular loop was striking, with 48% of all mutant alleles exhibiting a Leu151Phe exchange. Haplotype analysis strongly suggested a founder effect among patients with FHHNC who originated from Germany or eastern European countries. In 13 of 23 families, hypercalciuria and/or nephrolithiasis were observed in otherwise unaffected family members, indicating a possible role of heterozygous PCLN-1 mutations in yielding hypercalciuric stone-forming conditions.
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PMID:Novel paracellin-1 mutations in 25 families with familial hypomagnesemia with hypercalciuria and nephrocalcinosis. 1151 80

Familial hypomagnesemia-hypercalciuria with nephrocalcinosis and renal insufficiency in childhood is a rarely described disease. Two siblings of consanguineous Tunesian parents (first cousins), a 2-year-old boy and a 4-year-old girl presented with renal insufficiency and severe bilateral nephrocalcinosis. Both were found to have decreased serum and intracellular magnesium concentrations, increased urinary excretion of magnesium and calcium, mild glomerular and severe tubular proteinuria and low citrate excretion in urine. Pathological biochemical findings and the severity of nephrocalcinosis of the boy compared to findings of the sister were strongly marked, Histology of the boy's kidney showed severe medullary nephrocalcinosis, tubular atrophy, focal lymphoplasmacellulary infiltration, focal cortical fibrosis, immature glomerula, segmental and global glomerulosclerosis. Subsequent mutation analysis revealed a homozygous frameshift mutation in the gene paracellin-1 in both affected individuals. Therapy consisted of sodium bicarbonate, cholecalciferol, calcitriol, hydrochlorothiazide, citrate salts and oral magnesium administration. Hypercalciuria decreased in both children by therapy with thiazide diuretics, but hypomagnesemia was unresponsive to magnesium administration. After a 32-month follow-up the boy commenced hemodialysis at the age of 5 years, whereas his sister showed no decline in renal function.
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PMID:Familial hypomagnesemia-hypercalciuria in 2 siblings. 1152 93

The novel member of the claudin multigene family, paracellin-1/claudin-16, encoded by the gene PCLN1, is a renal tight junction protein that is involved in the paracellular transport of magnesium and calcium in the thick ascending limb of Henle's loop. Mutations in human PCLN1 are associated with familial hypomagnesemia with hypercalciuria and nephrocalcinosis, an autosomal recessive disease that is characterized by severe renal magnesium and calcium loss. The complete coding sequences of mouse and rat Pcln1 and the murine genomic structure are here presented. Full-length cDNAs are 939 and 1514 bp in length in mouse and rat, respectively, encoding a putative open-reading frame of 235 amino acids in both species with 99% identity. Exon-intron analysis of the human and mouse genes revealed a 100% homology of coding exon lengths and splice-site loci. By radiation hybrid mapping, the murine Pcln1 gene was assigned directly to marker D16Mit133 on mouse chromosome 16 (syntenic to a locus on human chromosome 3q27, which harbors the human PCLN1 gene). Mouse multiple-tissue Northern blot showed Pcln1 expression exclusively in the kidney. The expression profile along the nephron was analyzed by reverse transcriptase-PCR on microdissected nephron segments and immunohistochemistry of rat kidney. Paracellin-1 expression was restricted to distal tubular segments including the thick ascending limb of Henle's loop, the distal tubule, and the collecting duct. The identification and characterization of the rodent Pcln1 genes provide the basis for further studies of paracellin-1 function in suitable animal models.
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PMID:Primary gene structure and expression studies of rodent paracellin-1. 1172 35

Familial hypomagnesemia, hypercalciuria and nephrocalcinosis (FHHNC) is a rare autosomal recessive inherited disorder that has recently been attributed to a defect in the paracellin-1 ( PCLN-1)gene, encoding for a protein responsible for the tubular reabsorption of magnesium and calcium. Limited information is available on clinical course, therapy and prognosis. We provide information on five patients with FHHNC and their follow-up at our institution. Polyuria, nephrocalcinosis and hyperuricemia were the main clinical findings of a diagnosis at a median age of 4.4 years. The clinical course of PCLN-1 mutations as presented in this study is highly variable, ranging from compensated renal failure to end-stage renal failure - as happened in two of our patients. The progression to renal failure cannot be deduced from the initial presentation. Medical treatment does not appear to influence the progression of the disease. Despite calcium and magnesium substitution, normal values could not be achieved in these patients. Early treatment with vitamin D and calcium was essential to maintain growth. Adequate treatment allows for a normal height and pubertal development.
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PMID:Follow-up of five patients with FHHNC due to mutations in the Paracellin-1 gene. 1218 65

Familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC, MIN 248250) is a rare autosomal recessive tubular disorder that eventually progresses to renal failure. However, the progression to end-stage renal failure can vary from patient to patient. A primary defect is related to impaired tubular resorption of magnesium and calcium in the thick ascending limb of Henle's loop. Recently, paracellin-1 was identified as a renal tight junction protein predominantly expressed in TAL. Mutations of its gene (CLDN16) have been shown to cause FHHNC. We describe a sporadic Japanese case of FHHNC. The male patient showed hematuria, hypercalciuria, and nephrocalcinosis at 5 years of age. Hypomagnesemia was also noticed at this time. As renal function gradually deteriorated, further evaluation was performed at 14 years of age and a diagnosis of FHHNC was made. Despite several medications (magnesium supplementation, citrate, and hydrochlorothiazide), he eventually progressed to renal insufficiency at 19 years of age. Analysis of the CLDN16 gene demonstrated two heterozygous mutations (R149Q and R216C). Mutations of the same amino acids have already been described in FHHNC and thus these mutations might be the cause of the disease in our patient. Hence, we confirm the genetic impairment of the CLDN16 gene in a Japanese patient with FHHNC.
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PMID:Two heterozygous mutations of CLDN16 in a Japanese patient with FHHNC. 1458 75

Dent's disease and familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC) are inherited diseases in which hypercalciuria, nephrocalcinosis, and renal failure are prominent features. Dent's disease resembles a Fanconi syndrome, with impaired reabsorption in the proximal tubule; FHHNC, with urinary loss of magnesium and calcium, is associated with impaired cation transport in the thick ascending limb of Henle's loop. Gene mapping in families and positional cloning led in both cases to identification of the responsible gene. Dent's disease is associated with mutations that disrupt function of a voltage-gated chloride channel, CLC-5, expressed in subapical endosomes of the proximal tubule and in other nephron segments. Impaired function of this channel disturbs reabsorption of filtered proteins, as well as other transport functions of the proximal tubule, and leads, apparently indirectly, to hypercalciuria and renal failure. FHHNC results from mutations in paracellin-1, a tight-junction protein that appears to be important in conducting or regulating paracellular cation transport. Impaired function of paracellin-1 leads specifically to urinary losses of magnesium and calcium, but because transcellular transport is intact these patients do not have hypokalemia or salt wasting. Identification of both genes represent triumphs of a genetic approach to solving problems of pathophysiology.
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PMID:Inherited hypercalciuric syndromes: Dent's disease (CLC-5) and familial hypomagnesemia with hypercalciuria (paracellin-1). 1473 May 10

A 7-month-old male infant was referred for investigation after a documented febrile urinary tract infection. His past medical history was characterized by episodes of unexplained fever and mild dehydration. The ultrasound examination of his kidneys demonstrated bilateral diffuse medullary nephrocalcinosis. His serum and urine biochemistry revealed hypomagnesemia (0.4 mmol/l), hyperuricaemia (506 micromol/l), mildly increased iPTH (71 pg/ml) and hypercalciuria (16.0 mg/kg/day). The diagnosis of familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC) was confirmed by mutational analysis of the CLDN16 gene, encoding paracellin-1. Sequencing displayed a homozygous Leu151Phe exchange affecting the first extracellular loop of paracellin-1. There were eight family relatives who underwent biochemical analysis, renal ultrasound and genetic investigation for CLDN16 mutations. Five of them were found to be heterozygous for the Leu151Phe mutation. Two heterozygotes (the mother and the maternal grandfather) presented with hypercalciuria. The grandfather had a history of recurrent passage of calculi. These findings point to the role of heterozygous CLDN16 gene mutations in renal pathophysiology. In conclusion, patients suspected of having FHHNC should be screened for CLDN16 mutations, especially with respect to genetic counseling. In addition, heterozygotes at risk should be clinically assessed in order to prevent renal complications of hypercalciuria.
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PMID:Hypomagnesemia with hypercalciuria and nephrocalcinosis: case report and a family study. 1585 19

Familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC), an autosomal recessive renal tubular disorder, is characterized by the impaired tubular reabsorption of magnesium and calcium in the thick ascending limb of the loop of Henle and an eventual progression to end-stage renal disease. Recent studies have reported that this disease is caused by mutations in the CLDN16 gene, which encodes the tight junction protein, paracellin-1. Paracellin-1 belongs to the claudin family and regulates the paracellular transport of magnesium and calcium. Here, we report on two Korean siblings with typical clinical features of FHHNC in association with compound heterozygous mutations, G233C and 800delG, in CLDN16. Their parents were asymptomatic heterozygous carriers of the single mutations. This is the first report of FHHNC in Korea, and the mutations reported are novel.
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PMID:Familial hypomagnesemia with hypercalciuria and nephrocalcinosis associated with CLDN16 mutations. 1604 19

Tight junctions play a key selectivity role in the paracellular conductance of ions. Paracellin-1 is a member of the tight junction claudin protein family and mutations in the paracellin-1 gene cause a human hereditary disease, familial hypomagnesemia with hypercalciuria and nephrocalcinosis (FHHNC) with severe renal Mg2+ wasting. The mechanism of paracellin-1 function and its role in FHHNC are not known. Here, we report that in LLC-PK1 epithelial cells paracellin-1 modulated the ion selectivity of the tight junction by selectively and significantly increasing the permeability of Na+ (with no effects on Cl-) and generated a high permeability ratio of Na+ to Cl-. Mutagenesis studies identified a locus of amino acids in paracellin-1 critical for this function. Mg2+ flux across cell monolayers showed a far less-pronounced change (compared to monovalent alkali cations) following exogenous protein expression, suggesting that paracellin-1 did not form Mg2+-selective paracellular channels. We hypothesize that in the thick ascending limb of the nephron, paracellin-1 dysfunction, with a concomitant loss of cation selectivity, could contribute to the dissipation of the lumen-positive potential that is the driving force for the reabsorption of Mg2+.
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PMID:Paracellin-1 and the modulation of ion selectivity of tight junctions. 1623 25

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