Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0033687 (proteinuria)
24,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 5-year-old girl presented with short stature. She was found to have rickets due to renal phosphate wasting and nephrocalcinosis. Serum parathyroid hormone was suppressed, 25-OH vitamin D was within the normal range, and 1,25-(OH)(2 )vitamin D was elevated. In addition, she had hypercalciuria, proteinuria, which was partially tubular in origin, and a reduced glomerular filtration rate of 58 ml/min per 1.73 m(2). Treatment with phosphate supplements resulted in healing of the rickets and normalization of the serum 1,25-(OH)(2 )vitamin D level. This patient is an example of hypercalciuric rickets, most likely due to an inherited disorder of phosphate metabolism. Hypercalciuric rickets can be inherited as an autosomal recessive as well as autosomal dominant trait.
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PMID:A girl with rickets and nephrocalcinosis. 1464 29

CLC-5 is a member of the CLC family of voltage-gated chloride channels. Mutations disrupting CLC-5 lead to Dent's disease, an X-linked renal tubular disorder, characterised by low molecular weight proteinuria, hypercalciuria, nephrocalcinosis, and renal stones. Sequence analysis of CLC-5 reveals a 746 amino acid protein with an intracellular amino-terminus, transmembrane spanning domains, and two CBS domains within its intracellular carboxy-terminus. CBS domains have been implicated in intracellular targetting and trafficking as well as protein-protein interactions. We investigate subcellular localisation of three naturally occurring CLC-5 mutants which all lead to a truncated protein, disrupting the second CBS domain. These mutants are unable to traffic normally to acidic endosomes but are retained in perinuclear compartments, colocalising with the Golgi complex. This is the first identification of the cellular pathogenesis of CBS domain mutations of CLC-5.
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PMID:A role for CBS domain 2 in trafficking of chloride channel CLC-5. 1452 53

Dent's disease is an X-linked renal tubular disorder characterized by low-molecular-weight proteinuria, hypercalciuria, nephrocalcinosis, nephrolithiasis, and eventual renal failure. Various types of mutations in the renal chloride channel gene, CLCN5, have been identified in patients with this disease. We studied a Spanish patient with Dent's disease and found, by polymerase chain reaction amplification of the CLCN5 exons, an abnormally large exon 11. Sequencing analysis revealed that this was attributable to the insertion in codon 650 of an Alu element of the "young" Ya5 subfamily. The Alu element was inserted with the same orientation as the CLCN5 gene and arose de novo on the maternal chromosome. Polymorphism analysis indicated that the insertion occurred in the germline of the maternal grandfather. The presence of a long poly(A) tract and evidence for a 16-bp target-site duplication implied that the Alu element was integrated by retrotransposition. This mutation predicts a truncated ClC-5 protein that lacks part of the carboxy-terminus and is likely to result in loss of function of the chloride channel. Insertions of Alu sequences, which are rarely found in coding regions, have occasionally been reported to cause other genetic diseases. However, this is the first report of a retrotransposon insertion in the CLCN5 gene associated with Dent's disease.
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PMID:De novo insertion of an Alu sequence in the coding region of the CLCN5 gene results in Dent's disease. 1456 59

Mutations in the CLCN5 gene have been detected in Dent's disease and its phenotypic variants (X-linked recessive nephrolithiasis, X-linked recessive hypophosphatemic rickets, and idiopathic low-molecular-weight proteinuria of Japanese children). Dent's disease is a tubular disorder characterized by low-molecular-weight proteinuria, and nephrolithiasis associated with nephrocalcinosis and hypercalciuria. ClC-5 is the first chloride channel for which a definitive role in the trafficking and acidification-dependent recycling of apical membrane proteins has been established. In the course of CLCN5 SSCP analysis in patients with hypercalciuric nephrolithiasis, we detected a novel mutation at intron 2 of the CLCN5 gene, a T-to-G substitution, located 17 bp upstream of the AG acceptor site. To determine the effect of IVS2-17 T>G mutation on the correct splicing of intron 2, we studied ClC-5 transcripts in a patient's peripheral blood leukocytes by means of quantitative comparative RT/PCR, and found a new ClC-5 5' UTR isoform characterized by the untranslated exon 1b and by retention of intron 1b. This new isoform--isoform B1--was not correlated with mutation since it was detected also in control leukocytes and in renal tissues of kidney donors, thus confirming its physiological role. By RACE analysis we determined the putative transcriptional start site which is located at intron 1a, 251 nt upstream of the first nucleotide of the untranslated exon 1b. ORF analysis revealed that intron 1b retention in isoform B1 stabilizes the initiation of translation to the AGT at position 297 of the ClC-5 cDNA coding region.
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PMID:Identification of a novel splice site mutation of CLCN5 gene and characterization of a new alternative 5' UTR end of ClC-5 mRNA in human renal tissue and leukocytes. 1467 7

Dent's disease, a X-linked hypercalciuric nephrolithiasis, is caused by mutations of the CLCN5 gene. The disease is characterised by low molecular weight proteinuria with variable presence of hypercalciuria, hyperphosphaturia, nephrocalcinosis, and kidney stones. CLCN5 encodes a chloride channel belonging to the voltage-gated chloride channel family, which is predominantly expressed in the endosomes of proximal tubular cells. By shunting the current of electrogenic H+-ATPase, ClC-5 is crucial for efficient acidification of renal endosomes. As shown in knock-out mouse models, the ClC-5 loss of function causes severe impairment of receptor-mediated endocytosis, as well as the endocytotic retrieval of plasma membrane proteins including megalin. In a minority of patients with classical Dent's disease, the analysis of CLCN5 coding sequences failed to identify causative mutations. It is conceivable that mutations in the 5' upstream regulatory regions could impair the correct processing and translation of CLCN5. The complexity of its promoter region seems to support this hypothesis. Molecular diagnosis of Dent's disease is now available; since the risk of developing renal insufficiency in adult life is elevated for this type of nephrolithiasis, the correct diagnosis could potentially modify the natural history of the disease by preventing the evolution towards uraemia.
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PMID:[Dent's disease: hereditary nephrolithiasis related to defective tubular endocytosis processes]. 1473 9

Two young children with renal artery stenosis and severe hypertension who presented with the so-called hyponatremic-hypertensive syndrome (HHS), with marked urine and solute loss during the acute phase, are described. Both children also presented with severe high molecular proteinuria, glycosuria, and hypercalciuria, only the first symptom having prompt remission after normalization of blood pressure. In children with renal artery stenosis, HHS is associated with severe proteinuria due to hyperfiltration and more extensive tubular functional alterations. Hyponatremia and acute tubulopathy may mask the presenting clinical picture of renal artery stenosis.
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PMID:Hyponatremic-hypertensive syndrome with extensive and reversible renal defects. 1550 72

Low-molecular-weight (LMW) proteinuria has been described in patients with primary distal renal tubular acidosis (dRTA). However, other proximal renal tubular dysfunctions have rarely been reported. In this report we describe reversible and multiple proximal renal tubular cell dysfunctions in a patient with dRTA. A 4-year-old girl was admitted to our hospital for investigation of short stature and proteinuria. Laboratory studies revealed a hyperchloremic metabolic acidosis without aciduria, hypokalemia, hypouricemia with uricosuria, hypercalciuria, LMW proteinuria, phosphaturia, and generalized aminoaciduria. The patient was diagnosed as having dRTA with multiple proximal renal tubular dysfunctions. All proximal renal tubular dysfunction subsided 1.5 years after starting alkali therapy. The precise pathogenic mechanisms underlying the development of multiple proximal renal tubular dysfunctions in dRTA remained unclear. However, proximal renal tubular endosomal dysfunction resulting from a profound intracellular acidosis caused by vacuolar H+-ATPase dysfunction or hypokalemic nephropathy might contribute to the development of proximal renal tubular dysfunctions in patients with dRTA.
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PMID:Proximal renal tubular dysfunction in primary distal renal tubular acidosis. 1554 7

Dent's disease is an inherited tubulopathy caused by a mutation in the CLCN5 chloride channel gene. It is characterized by low-molecular weight proteinuria, hypercalciuria, nephrolithiasis or nephrocalcinosis, rickets and eventual-progressive renal failure. Onset of clinical symptoms show a great variability, making a diagnosis at an early stage of the disease often difficult. Given the variably clinical picture, genetic analysis can provide a reliable method to confirm the diagnosis. Here, we report on the case of a patient with progressive renal failure showing signs of a tubular lesion and symptoms of Dent's disease. Although this rare disease was suspected by means of the clinical features, it was genetic analysis that confirmed the diagnosis and revealed a novel mutation in the CLCN5 gene.
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PMID:Dent's disease: identification of a novel mutation in the renal chloride channel CLCN5. 1557 Nov 86

Dent's disease, a renal tubular disorder characterized by low-molecular-weight proteinuria (LMWP), hypercalciuria, and nephrolithiasis, is due to inactivating mutations in the x-linked renal specific chloride channel CLC-5. CLC-5 belongs to the family of voltage-gated chloride channels, which function as homodimeric proteins with each subunit consisting of 18 helices and a chloride selectivity filter, i.e. pore. None of the 15 CLC-5 missense mutations reported in patients with dent's disease involves the chloride selectivity filter, but 12 of these are clustered around the interface of the two subunits, thereby emphasising the important role for the interaction between the two subunits at the interface of the homodimeric CLC-5. In the kidney, CLC-5 forms part of the receptor-mediated endocytic pathway, and defects in this pathway due to a loss of CLC-5 function, may help to account for the LMWP, hyperphosphaturia, hypercalciuria and nephrolithiasis. The molecular studies and the generation of mouse models of the disease have increased our understanding of the renal tubular mechanisms that regulate mineral homeostasis.
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PMID:Dent's disease--a nephrolithiasis disorder associated with defective receptor-mediated endocytosis. 1561 94

Dent's disease is an hereditary renal tubular disorder characterized by low-molecular-weight (LMW) proteinuria, hypercalciuria and nephrolithiasis. The disease is due to mutations of CLC-5, a member of the family of voltage-gated CLC chloride channels. CLC-5 is distributed in cells lining the proximal tubule (PT) of the kidney, where it co-localizes with albumin-containing endocytic vesicles that form part of the receptor-mediated endocytic pathway that mediates the reabsorption of low-molecular-weight (LMW) proteins filtered at the glomerular level. Since progression along the endocytic apparatus requires endosomal acidification, it has been suggested that dysfunction of CLC-5 in endosomes may lead to inefficient reabsorption of LMW proteins and dysfunction of PT cells. Investigations conducted in a CLC-5 knockout (KO) mouse model harbouring all the characteristic renal tubular defects of Dent's disease showed a severe impairment of endocytosis by PT cells, such that the endocytic tracer peroxidase was poorly transferred into early endocytic vesicles. These data demonstrated that an impairment of receptor-mediated endocytosis in PT cells is the basis for the defective uptake of LMW proteins in patients with Dent's disease. The endocytosis and processing of LMW proteins involves the multiligand tandem receptors, megalin and cubilin, that are abundantly expressed at the brush border of PT cells. The characterization of the endocytic defect in CLC-5 KO mice revealed that ligands of both megalin and cubilin were affected, whereas a decrease in total kidney content of megalin and cubilin at the protein level was detected. Using analytical subcellular fractionation and quantitative immunogold labelling, we demonstrated a selective disappearance of megalin and cubilin at the brush border of PT cells. These observations allowed us to conclude that defective protein endocytosis linked to CLC-5 inactivation is due to a major and selective loss of megalin and cubilin at the brush border, reflecting a trafficking defect in renal PT cells. These results improve our understanding of Dent's disease, taken as a paradigm for renal Fanconi syndrome and nephrolithiasis, and demonstrate multiple roles for CLC-5 in the kidney. These studies also provided insights in important functions such as apical endocytosis, handling of proteins by renal tubular cells, calcium metabolism, and urinary acidification.
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PMID:Chloride channels and endocytosis: new insights from Dent's disease and CLC-5 knockout mice. 1561 95


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