Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0035078 (renal failure)
 31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alport syndrome is a hereditary progressive glomerular basement membrane disorder in which juvenile-or adult-onset renal failure is often accompanied by sensorineural deafness and ocular abnormalities. Recently, mutations have been found in the type IV collagen alpha 5 chain gene in patients with X-linked Alport syndrome. This study searched for gene mutations in seven unrelated Japanese patients by the use of conventional Southern blot analysis with cDNA probes for the carboxyl-terminal noncollagenous domain that is encoded by exons 46 to 51. A deletion mutation was found in a patient who developed juvenile-onset (age 15) ESRD with typical ultrastructural glomerular basement membrane destruction and sensorineural hearing loss but no characteristic ocular abnormalities. His mother showed hematuria and proteinuria with normal renal function, suggesting that she may be the heterozygous carrier. Exon-specific polymerase chain reaction amplified the coding sequence of exon 48 but not exons 49 to 51. Analysis with pulsed-field gel electrophoresis revealed that the deletion is approximately 10 kb in length and does not involve the CpG island, which is located in the 3' distal site of the gene. Identification of this novel deletion causing juvenile-type Alport syndrome would contribute to elucidating the mechanisms of renal failure progression in the syndrome.
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PMID:A deletion mutation in the 3' end of the alpha 5(IV) collagen gene in juvenile-onset Alport syndrome. 801 73

Dent's disease is a familial proximal renal tubular disorder which is associated with low molecular weight proteinuria, hypercalciuria, nephrocalcinosis, kidney stones and renal failure. The mode of inheritance and the primary defect for this disorder are unknown. An analysis of 5 unrelated British families revealed a greater disease severity in males and an absence of male to male transmission. This suggested an X-linked inheritance and we investigated this further by linkage studies in 33 members (12 affected, 21 unaffected) from two 3-generation families. Twenty X-linked polymorphic markers were used and linkage was established with the Xp11 loci ARAFI, DXS426, DXS255 and DXS988 with peak LOD scores and recombination fractions (theta) of 5.42 (theta = 0.000), 3.61 (theta = 0.000), 5.48 (theta = 0.000) and 4.25 (theta = 0.045) respectively. In addition, DXS255 revealed a microdeletion in the affected members of one family, thereby further localising Dent's disease to Xp11.22. Combined multilocus linkage analysis and deletion mapping studies defined the locus order Xpter-MAOB-(ARAFI, DXS426)-SYP-TFE3-(DXS255, DENT'S)-DXS988-Xcen, thereby mapping the microdeletion associated with Dent's disease to a 4 centiMorgan interval flanked by TFE3 and DXS988. Thus, Dent's disease is an X-linked disorder which is associated with a microdeletion of Xp11.22, and a further characterisation of this gene will help to elucidate the factors controlling proximal renal tubular function and the development of kidney stones.
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PMID:Dent's disease, a renal Fanconi syndrome with nephrocalcinosis and kidney stones, is associated with a microdeletion involving DXS255 and maps to Xp11.22. 811 83

The inherited diseases of the glomerular basement membrane include Alport's syndrome (AS), nail-patella syndrome, and thin basement membrane nephropathy. Classical AS is inherited in an X-linked manner and accounts for approximately 85% of the cases. Its manifestations include hematuria, sensorineural hearing loss, ocular defects, and a progression to renal failure. A defect(s) in the alpha 5 (IV) chain of type IV collagen is believed to be the etiology of classic AS, and alterations in its encoding gene localized to the X-chromosome have been elucidated. Although isolated cases of anti-glomerular basement membrane glomerulonephritis have been reported following renal transplantation in patients with AS, it is considered an effective form of renal replacement therapy. Less is known regarding the genetic basis of the autosomal-dominant form of AS, which apparently accounts for the remaining 15% of the cases. Nail-patella syndrome is characterized by nail dysplasia, patellar hypoplasia or aplasia, and nephropathy. It is inherited in an autosomal-dominant fashion with the gene locus assigned to the long arm of chromosome 9. Possible linkage between the COL5A1 gene and the gene for nail-patella syndrome has been suggested. Approximately 30% of the patients progress to end-stage renal failure. Renal transplantation has been successful in treating patients who progress to end-stage renal failure. Thin basement membrane nephropathy is an autosomal dominant trait that accounts for approximately 30% of the cases presenting as persistent, asymptomatic hematuria. The cause of thin basement membrane nephropathy is unknown at present. No decline in renal function is associated with thin basement membrane nephropathy.
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PMID:Inherited diseases of the glomerular basement membrane. 815 1

Although gout and hyperuricaemia are usually thought of as conditions of indulgent male middle age, in addition to the well-known uricosuria of the newborn, there is much of importance for the paediatric nephrologist in this field. Children and infants may present chronically with stones or acutely with renal failure from crystal nephropathy, as a result of inherited deficiencies of the purine salvage enzymes hypoxanthine-guanine phosphoribosyltransferase (HPRT) and adenine phosphoribosyltransferase (APRT) or of the catabolic enzyme xanthine dehydrogenase (XDH). Genetic purine overproduction in phosphoribosylpyrophosphate synthetase superactivity, or secondary to glycogen storage disease, can also present in infancy with renal complications. Children with APRT deficiency may be difficult to distinguish from those with HPRT deficiency because the insoluble product excreted, 2,8-dihydroxyadenine (2,8-DHA), is chemically very similar to uric acid. Moreover, because of the high uric acid clearance prior to puberty, hyperuricosuria rather than hyperuricaemia may provide the only clue to purine overproduction in childhood. Hyperuricaemic renal failure may be seen also in treated childhood leukaemia and lymphoma, and iatrogenic xanthine nephropathy is a potential complication of allopurinol therapy in these conditions. The latter is also an under-recognised complication of treatment in the Lesch-Nyhan syndrome or partial HPRT deficiency. The possibility of renal complications in these three situations is enhanced by infection, the use of uricosuric antibiotics and dehydration consequent upon fever, vomiting or diarrhoea. Disorders of urate transport in the renal tubule may also present in childhood. A kindred with X-linked hereditary nephrolithiasis, renal urate wasting and renal failure has been identified, but in general, the various rare types of net tubular wasting of urate into the urine are recessive and relatively benign, being found incidentally or presenting as colic from crystalluria. However, the opposite condition of a dominantly inherited increase in net urate reabsorption is far from benign, presenting as familial renal failure, with hyperuricaemia either preceding renal dysfunction or disproportionate to it. Paediatricians need to be aware of the lower plasma urate concentrations in children compared with adults when assessing plasma urate concentrations in childhood and infancy, so that early hyperuricosuria is not missed. This is of importance because most of the conditions mentioned above can be treated successfully using carefully controlled doses of allopurinol or means to render urate more soluble in the urine. Xanthine and 2,8-DHA are extremely insoluble at any pH. Whilst 2,8-DHA formation can also be controlled by allopurinol, alkali is contraindicated. A high fluid, low purine intake is the only possible therapy for XDH deficiency.
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PMID:Gout, uric acid and purine metabolism in paediatric nephrology. 843 71

Mutations affecting the COL4A5 gene encoding the alpha 5 chain of type IV collagen, are involved in the pathogenesis of X-linked Alport syndrome. We used denaturing gradient gel electrophoresis (DGGE) to screen PCR amplified exons of COL4A5 for point mutations in a set of 18 Alport patients previously characterized by Southern blotting. One sequence variant was identified in the exon 38 region of a male Alport patient. Sequence analysis revealed a G to C transversion in the 5' intron splice donor site downstream from exon 38 (GT to CT). To determine the effect of the mutation on mRNA splicing, alpha 5(IV) cDNA was generated from total RNA of peripheral blood lymphocytes. Subsequent cDNA PCR yielded a product 81 base pairs shorter in the affected Alport patient, compared to normal controls. The absence of exon 38 from the alpha 5(IV) cDNA was confirmed by sequence analysis. The results demonstrated that the mutation leads to skipping of exon 38 in the processing of alpha 5(IV) pre-mRNA. The shortened transcript lacked 27 codons encoding a Gly-X-Y-repeat sequence with a preserved reading frame, enabling the translation of codons further downstream. Clinically, the patient presented with juvenile onset Alport syndrome, end-stage renal failure, and deafness. He had no ocular lesions. Typical ultrastructural changes of the glomerular basement membrane (GBM) were shown on electron microscopy. The patient developed anti-GBM antibodies after renal transplantation, however, renal function deteriorated only moderately.
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PMID:COL4A5 splice site mutation and alpha 5(IV) collagen mRNA in Alport syndrome. 844 Dec 46

Dent disease, an X-linked familial renal tubular disorder, is a form of Fanconi syndrome associated with proteinuria, hypercalciuria, nephrocalcinosis, kidney stones, and eventual renal failure. We have previously used positional cloning to identify the 3' part of a novel kidney-specific gene (initially termed hClC-K2, but now referred to as CLCN5), which is deleted in patients from one pedigree segregating Dent disease. Mutations that disrupt this gene have been identified in other patients with this disorder. Here we describe the isolation and characterization of the complete open reading frame of the human CLCN5 gene, which is predicted to encode a protein of 746 amino acids, with significant homology to all known members of the ClC family of voltage-gated chloride channels. CLCN5 belongs to a distinct branch of this family, which also includes the recently identified genes CLCN3 and CLCN4. We have shown that the coding region of CLCN5 is organized into 12 exons, spanning 25-30 kb of genomic DNA, and have determined the sequence of each exon-intron boundary. The elucidation of the coding sequence and exon-intron organization of CLCN5 will both expedite the evaluation of structure/function relationships of these ion channels and facilitate the screening of other patients with renal tubular dysfunction for mutations at this locus.
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PMID:Cloning and characterization of CLCN5, the human kidney chloride channel gene implicated in Dent disease (an X-linked hereditary nephrolithiasis). 857 51

Mutations in the COL4A5 gene, which encodes the a5 chain of type IV collagen, are found in a large fraction of patients with X-linked Alport syndrome. The recently discovered COL4A6, tightly linked and highly homologous to COL4A5, represents a second candidate gene for Alport syndrome. We analyzed 177 Italian Alport syndrome families by Southern blotting using cDNA probes from both COL4A5 and COL4A6. Nine unrelated families, accounting for 5% of the cases, were found to have a rearrangement in COL4A5. No rearrangements were found in COL4A6, with the exception of a deletion encompassing the 5' ends of both COL4A5 and COL4A6 genes in a patient with Alport syndrome and leiomyomatosis. COL4A5 rearrangements were all intragenic and included 1 duplication and 7 deletions. Polymerase chain reaction (PCR) analysis was carried out to characterize deletion and duplication boundaries and to predict the resulting protein abnormality. The two smallest deletions involved a single exon (exons 17 and 40, respectively), while the largest ones spanned exons 1 to 36. The clinical phenotype of patients in whom a rearrangement in COL4A5 was detected was severe, with progression to end-stage renal failure in juvenile age and hypoacusis occurring in most cases. These data have some important implications in the diagnosis of patients with Alport syndrome.
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PMID:Major COL4A5 gene rearrangements in patients with juvenile type Alport syndrome. 859 66

Alport syndrome is an inherited disorder of collagen that affects the kidney, the eye, and the cochlea. The disease exhibits variability in its clinical and pathological manifestations, and is genetically heterogeneous. The X-linked dominant form of Alport syndrome arises from mutation in the COL4A5 gene, which encodes the alpha 5 chain of type IV collagen. The autosomal recessive form is caused by mutation in the COL4A3 gene, which encodes the alpha 3 chain of type IV collagen, or in the COL4A4 gene, which encodes the alpha 4 chain of type IV collagen. An autosomal dominant variety of Alport syndrome also exists, but mutations in this form of the disease have not yet been described. Cotransmission of X-linked dominant Alport syndrome and diffuse leiomyomatosis in some families results from deletions involving the COL4A5 gene and the contiguous COL4A6 gene. The clinical and pathologic features of Alport syndrome are attributable to abnormalities in the basement membrane collagen network composed of the alpha 3, alpha 4, and alpha 5 chains of type IV collagen, although the mechanism by which mutation in the gene encoding one of these chains effects the other two chains is not yet known. In addition, the processes that lead to progressive glomerular scarring and renal failure are incompletely understood. While diagnosis of Alport syndrome still rests on clinical and pathologic evaluation, immunohistochemical and molecular genetic tools can augment diagnostic precision.
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PMID:Clinical and molecular diagnosis of Alport syndrome. 860 15

X-linked phosphoglycerate kinase (PGK) deficiency is a rare disorder which affects the glycolytic pathway and leads to reduced ATP production. Clinically, PGK deficiency is often associated with nonspherocytic hemolytic anemia and symptoms caused by disturbances of the central nervous system. In addition, myopathy characterized by weakness, cramps, intolerance to exercise, and myoglobinuria has been described in a few cases. We here report on a 23-year-old man who presented with episodes of muscular weakness, cramps, rhabdomyolysis, and renal failure induced by intensive physical exercise. Biochemical analysis of muscle specimens disclosed markedly reduced PGK activity (11.5% compared to normal controls). A moderate increase of glycogen was seen in numerous muscle fibers. Mitochondria in muscle fibers and endothelial cells showed accumulations of glycogen. In muscle fibers unusually large matrix granules were present in several mitochondria. A sural nerve biopsy disclosed scattered large hypomyelinated axons without evidence of demyelination and remyelination. These findings indicate involvement of mitochondria in this case of symptomatic PGK deficiency.
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PMID:Mitochondrial changes in muscle phosphoglycerate kinase deficiency. 899 55

Fabry disease is an X-linked inherited metabolic disorder that is caused by a deficiency of alpha-galactosidase A (alpha-Gal A). Progressive deposition of neutral glycosphingolipids that have terminal a-linked galactosyl moieties in vascular endothelial cells causes renal failure along with premature myocardial infarctions and strokes in patients with this condition. No specific treatment is available for patients with this disorder at this time. An animal model of this condition would be valuable for exploring therapeutic strategies for patients with Fabry disease. We report here the generation of alpha-Gal A deficient mice by gene targeting and an analysis of the resulting phenotype. The knockout mice display a complete lack of alpha-Gal A activity. The mice, however, appeared clinically normal at 10 weeks of age. Ultrastructural analysis revealed concentric lamellar inclusions in the kidneys, and confocal microscopy using a fluorescent-labeled lectin specific for alpha-D-galactosyl residues showed accumulation of substrate in the kidneys as well as in cultured fibroblasts. Lipid analysis revealed a marked accumulation of ceramidetrihexoside in the liver and the kidneys. These findings indicate the similarity of the pathophysiological process in the mutant mice and in patients with Fabry disease. The deficiency of alpha-Gal A activity and the accumulation of material containing terminal alpha-galactosyl residues in cultured embryonic fibroblasts derived from alpha-Gal A(-/0) mice were corrected by transducing these cells with bicistronic multidrug resistance retroviruses containing human alpha-Gal A cDNA.
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PMID:alpha-Galactosidase A deficient mice: a model of Fabry disease. 912 31


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