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: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations in the X-chromosomal V2 receptor gene are known to cause nephrogenic diabetes insipidus (NDI). Besides the X-linked form, an autosomal mode of inheritance has been described. Recently, mutations in the autosomal gene coding for water-channel aquaporin 2 (AQP2) of the renal collecting duct were reported in an NDI patient. In the present study, missense mutations and a single nucleotide deletion in the aquaporin 2 gene of three NDI patients from consanguineous matings are described. Expression studies in Xenopus oocytes showed that the missense AQP2 proteins are nonfunctional. These results prove that mutations in the AQP2 gene cause autosomal recessive NDI.
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PMID:Patients with autosomal nephrogenic diabetes insipidus homozygous for mutations in the aquaporin 2 water-channel gene. 752 15

Congenital nephrogenic diabetes insipidus (NDI) is a rare inherited disorder characterized by the inability of the kidney to concentrate urine in response to vasopressin (AVP). Following the recent characterization of the cDNA and genomics sequences encoding the human V2 receptor to AVP (AVPR2), X-linked NDI has been found to be due to mutations in the AVPR2 gene that maps to the chromosome Xq28 region. To date more than 30 mutations, insertions or deletions have been reported in independent families, without any significant differences in the phenotypic expression of the disease. The AVPR2 is a member of the superfamily of 7 transmembrane domain, G protein-coupled receptor, linked to cyclic AMP second messenger system. Other types of inheritance have been described in NDI, and recently, a mutation of the aquaporin-2 gene, encoding a water channel of the renal collecting duct, has been reported in an autosomal recessive form of NDI.
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PMID:[Hereditary nephrogenic diabetes insipidus]. 764 Jul 59

Congenital nephrogenic diabetes insipidus (CNDI) is a rare X-linked disorder in which the renal collecting duct is unresponsive to arginine vasopressin, and thus, the urine is consistently hypotonic to plasma. As a result, affected individuals are unable to concentrate urine and suffer from episodes of severe dehydration and hypernatremia. Recently, the association between arginine vasopressin V2 receptor gene mutations and CNDI has been demonstrated. In this report, two additional novel molecular defects of the arginine vasopressin V2 receptor gene in CNDI families are described. In one family, the affected individual demonstrated a G-->T transversion causing a nonsense mutation in codon 231. This mutation results in a glutamic acid becoming a termination codon, causing premature termination and truncation of the encoded receptor protein. This mutation causes a NciI site within the gene to be abolished and a BsaWI site to be created. In the second family, affected individuals showed a 28-basepair duplicating insertion in the very beginning of exon 2 down-stream of the splice acceptor site. It was hypothesized that an insertion mutagenesis mechanism involves the formation of a stem-loop structure within the newly synthesized DNA strand, followed by a slipped mispairing. This may be a general mechanism for the deletion or insertion of repeated sequences within the genome. Recent data show that G-protein-coupled receptors are susceptible to many different mutations that often result in the loss of function, causing a similar clinical phenotype.
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PMID:Mutations in the vasopressin V2 receptor gene in two families with nephrogenic diabetes insipidus. 799 96

Congenital nephrogenic diabetes insipidus (DIR) is a rare X-linked hereditary disorder in which the renal collecting duct is unresponsive to arginine vasopressin; thus, the urine is consistently hypotonic to plasma. Recently, the association between the V2 receptor gene (AVPR2) and DIR has been proven. We have determined the gene sequence of four family members, from three generations, of a large North American family with CNDI who were originally part of the study used to formulate the Hopewell hypothesis. It had been proposed that a single DIR gene defect was introduced to North America by a member of an Ulster Scot kindred arriving on the ship Hopewell in 1761. DNA sequencing of the AVPR2 has identified a single base transversion from G-->A which changes tryptophan 71 to a stop codon in affected patients. This point mutation causes a truncation of the receptor leading to an essentially null allele. These data and other recently described mutations in the AVPR2 in North American pedigrees, descended from Ulster Scot ancestors and other origins, make the assertion of a founder effect proposed in the Hopewell hypothesis invalid.
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PMID:A Null mutation in the vasopressin V2 receptor gene (AVPR2) associated with nephrogenic diabetes insipidus in the Hopewell kindred. 840 2

Hereditary diabetes insipidus can occur in two forms: the first, referred to as central diabetes insipidus, is responsive to vasopressin whereas the second, termed nephrogenic diabetes insipidus, is resistant to treatment. Recent advances in molecular genetics have contributed to elucidate the pathogenesis of these affections. Familial central diabetes insipidus depicts two unsimilar illnesses. The first, characterized by an autosomal dominant transmission, is of delayed onset and worsens progressively all through life. It is related to a heterozygous mutation of the vasopressin precursor gene mainly involving either the sequence encoding for the signal peptide or the one encoding for neurophysin II, the hormone carrier protein. Mutations described to date are responsible for impairment of vasopressin precursor transportation and processing. Therefore mutant protein accumulates in the posterior pituitary which is involved in the persistant bright spot seen on magnetic resonance imaging. The second illness or Wolfram syndrome, autosomal recessive, associates obligatory features: insulin-dependant diabetes, bilateral optic atrophy and more inconstantly: diabetes insipidus, deafness, genito-urinary and neuropsychiatric disturbances. The cause of this syndrome, still unknown, may involve mitochondrial ADN mutations. Familial nephrogenic diabetes insipidus, of neonatal onset, are mainly X-linked and associated to mutations in the V2 receptor gene. About 60 mutations have been described until now. Some rare cases, transmission of which is autosomal recessive, result from homozygous mutations of aquaporin 2 gene, a water channel involved in the water reabsorption in the renal collecting duct. Other mutations will be probably discovered in future. In conclusion, familial diabetes insipidus constitutes an interesting pathogenic model because it may be explained by impairment of vasopressin gene precursor as well as by abnormalities of renal receptor or post receptor mechanisms of the hormone.
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PMID:[Congenital diabetes insipidus. Recent advances in molecular genetics]. 868 70

The molecular cloning and characterization of receptors for the nonapeptide hormone family vasopressin-oxytocin was rapidly followed by the identification of mutations in the V2 receptor gene segregating with the clinical phenotype in more than a hundred families with X-linked nephrogenic diabetes insipidus. Together with the recent cloning of the vasopressin-regulated water channel in the apical membrane of the collecting duct tubule and of the identification of rare autosomal recessive nephrogenic diabetes insipidus patients with mutations in the AQP2 gene, these developments enable carrier detection and early diagnosis of infants with congenital nephrogenic diabetes insipidus.
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PMID:Vasopressin receptors in health and disease. 874 82

Nephrogenic diabetes insipidus (NDI) is characterized by resistance of the kidney to the action of arginine-vasopressin (AVP); it may be due to genetic or acquired causes. Recent advances in molecular genetics have allowed the identification of the genes involved in congenital NDI. While inactivating mutations of the vasopressin V2 receptor are responsible for X-linked NDI, autosomal recessive NDI is caused by inactivating mutations of the vasopressin-regulated water channel aquaporin-2 (AQP-2). About 70 different mutations of the V2 receptor have been reported, most of them missense mutations. The functionally characterized mutants show a loss of function due to defects in their synthesis, processing, intracellular transport, AVP binding, or interaction with the G protein/adenylyl cyclase system. Thirteen different mutations of the AQP-2 gene have been reported. Functional studies of three AQP-2 mutations reveal impaired cellular routing as the main defect. The great number of different mutations with various functional defects hinders the development of a specific therapy. Gene therapy may, however, eventually become applicable to the congenital forms of NDI. At present all gene-therapeutic approaches lack safety and efficiency, which is of particular relevance in a disease that is treatable by an adequate water intake. The progress with regard to the molecular basis of antidiuresis contributes to the understanding of acquired forms of NDI on a molecular level. Recent data show that lithium dramatically reduces the expression of AQP-2. Likewise, hypokalemia reduces the expression of this water channel. The exact mechanisms leading to this reduced expression of AQP-2 remain to be determined.
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PMID:The molecular basis of nephrogenic diabetes insipidus. 958 67

Several aquaporin-type water channels are expressed in mammalian kidney and lung: AQP1 in lung microvessels and kidney proximal tubule, thin descending limb of Henle, and vasa recta; AQP2 in apical membrane of collecting duct epithelium; AQP3 and AQP4 in basolateral membranes of airway and collecting duct epithelium; and AQP5 in alveolar epithelium. Novel quantitative fluorescence methods demonstrated very high water permeabilities of the alveolar epithelial and endothelial barriers, and moderately high water permeability across distal airways. In the kidney, water permeability is high in proximal tubule and thin descending limb of Henle, and regulated by vasopressin in collecting duct. The author's laboratory has studied the role of aquaporins in organ physiology using transgenic knockout mice lacking specific aquaporins. AQP1 null mice are mildly growth-retarded, manifest a severe urinary concentrating defect, and have reduced water permeability between airspace and capillary compartments. AQP4 null mice appear normal grossly except for a mild defect in maximum urinary concentrating ability. AQP2-deficient humans have hereditary non-X-linked nephrogenic diabetes insipidus (NDI). In transfected mammalian cells, many NDI-causing AQP2 mutants are retained in the endoplasmic reticulum. The author's laboratory has found that "chemical chaperones," that is, small compounds that promote protein folding in vitro, are able to correct defective AQP2 trafficking in cell culture models. The transgenic mouse and mammalian cell models are thus beginning to provide clues about the role of aquaporins in normal physiology and disease.
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PMID:Role of aquaporin water channels in kidney and lung. 982 13

Kallmann syndrome is a developmental disease characterized by gonadotropin-releasing hormone (GnRH) deficiency and olfactory bulb hypoplasia. The gene underlying the X chromosome-linked form, KAL-1, has been identified for several years, yet the pathogenesis of the disease is not understood. By immunohistofluorescence and immunoelectron microscopy, we establish that the KAL-1 encoded protein, anosmin-1, is a transient and regionally restricted component of extracellular matrices during organogenesis in man. Anosmin-1 was detected in the basement membranes and/or interstitial matrices of various structures including bronchial tubes, mesonephric tubules and duct, branches of the ureteric bud, muscular walls of the digestive tract and larger blood vessels, precartilaginous models of skeletal pieces, muscle tendons, head mesenchymes, inner ear, and forebrain subregions. Our results suggest that this protein acts as a local, rather than a long-range, cue during organogenesis. In the olfactory system, anosmin-1 was detected from week 5 onward. The protein was restricted to the olfactory bulb presumptive region and later, to the primitive olfactory bulbs. We therefore suggest that the genetic defect underlying X-linked Kallmann syndrome disrupts the terminal navigation of the early olfactory axons or directly affects the initial steps of olfactory bulb differentiation. The mechanism of the GnRH deficiency is also discussed, relying on the evidence that anosmin-1 is present in the medial walls of the primitive cerebral hemispheres, along the rostro-caudal migratory pathway of the GnRH-synthesizing neurons, at 6 weeks. Finally, the present results strongly suggest that the renal aplasia observed in about one third of the affected individuals results from primary failure of the collecting duct system.
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PMID:Anosmin-1 is a regionally restricted component of basement membranes and interstitial matrices during organogenesis: implications for the developmental anomalies of X chromosome-linked Kallmann syndrome. 1034 Jul 54

Nephrogenic diabetes insipidus (NDI) is associated with germline mutations in two genes: vasopressin receptor type 2 (V2(R)) in X-linked NDI, and the water channel aquaporin-2, in autosomal-recessive disease. Genetic heterogeneity is further emphasized by reports of phenotypically abnormal individuals with normal structural genes. We analyzed both genes in five Brazilian families and the aquaporin-2 gene in two Swedish families with clinical and laboratory diagnosis of NDI, by a combination of denaturing gradient gel electrophoresis (DGGE) and direct DNA sequencing. A novel polymorphism in the aquaporin-2 gene (S167S), but no disease-associated mutations in any tested individual from all seven families, was detected. In two Brazilian families, frameshift mutations were detected in the V2(R) gene: one leading to a premature stop after codon 36 and the other to a longer peptide (462 aa instead of the 373 aa wild-type protein). In two other Brazilian families, probable disease-associated missense mutations were detected: an alanine to proline at codon 163 (A163P) and an asparagine to aspartic acid at codon 85 (D85N). In one Brazilian family, both genes were structurally normal and the aquaporin-2 gene was also normal in the two Swedish kindreds. This report further extends the mutational spectrum of NDI and suggests that there are other mutational or epigenetic events inactivating the two known genes or even novel genes that underlie NDI.
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PMID:Molecular analyses of the vasopressin type 2 receptor and aquaporin-2 genes in Brazilian kindreds with nephrogenic diabetes insipidus. 1047 31


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