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:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antidiuretic hormone arginine vasopressin interacts with two types of receptors: V1, which mediates the effects of vasopressin on vascular smooth muscle, and V2, which mediates the antidiuretic effects on renal tubules. Resistance of the renal tubules to arginine vasopressin and to the antidiuretic V2-specific agonist 1-desamino[8-D-arginine] vasopressin (dDAVP) occurs in congenital nephrogenic diabetes insipidus, a rare X-linked disease, although the V1-receptor responses remain intact. The extrarenal actions of dDAVP in normal persons are a decrease in blood pressure, an increase in plasma renin activity, and stimulation of the release of factor VIIIc and von Willebrand factor. We measured the response of mean arterial pressure, pulse rate, plasma renin activity, factor VIIIc, and von Willebrand factor to an infusion of dDAVP (0.3 microgram per kilogram of body weight) in seven male patients with congenital nephrogenic diabetes insipidus, six obligatory carriers of the gene for nephrogenic diabetes insipidus, five patients with central diabetes insipidus, and four normal subjects. In the normal subjects and the patients with central diabetes insipidus, dDAVP decreased mean arterial pressure (by 10 to 15 percent) and increased pulse rate (by 20 to 25 percent), renin activity (by 65 percent), and the release of coagulation factors (twofold to threefold) (all changes were significant, P less than 0.01). None of these changes were observed in the patients with congenital nephrogenic diabetes insipidus, and minimal responses were observed in the obligatory carriers. These results confirm the existence of extrarenal vasopressin V2-like receptors, which may be defective in patients with congenital nephrogenic diabetes insipidus.
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PMID:Hemodynamic and coagulation responses to 1-desamino[8-D-arginine] vasopressin in patients with congenital nephrogenic diabetes insipidus. 296 1

Nephrogenic diabetes insipidus (NDI) is most often an X-linked disorder in which urine is not concentrated due to renal resistance to arginine vasopressin. We recently identified four vasopressin type 2 receptor gene mutations in unrelated X-linked NDI families, including R143P, delta V278, R202C, and 804insG. All these mutations reduced ligand binding activity to < 10% of the normal without affecting mRNA accumulation. To elucidate whether the receptors are expressed on the cell surface, we analyzed biosynthesis and localization of tagged or untagged receptors stably expressed in Chinese hamster ovary (CHO) cells, using two antibodies directed against distinct termini. Whole-cell and surface labeling studies revealed that the R202C clone had both surface-localized (50-55 kD) and intracellular proteins (40 and 75 kD), similar to the wild-type AVPR2 clone, whereas the R143P and delta V278 clones lacked the surface receptors, despite relatively increased intracellular components. The 804insG mutant cell produced no proteins despite an adequate mRNA level. Immunofluorescence staining confirmed that the R202C mutant reaches the cell surface, whereas the R143P and delta V278 mutants are retained within the cytoplasmic compartment. Thus, R202C, R143P/delta V278, and 804insG result in three distinct phenotypes, that is, a simple binding impairment at the cell surface, blocked intracellular transport, and ineffective biosynthesis or/and accelerated degradation of the receptor, respectively, and therefore are responsible for NDI. This phenotypic classification will help understanding of molecular pathophysiology of this disorder.
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PMID:Binding-, intracellular transport-, and biosynthesis-defective mutants of vasopressin type 2 receptor in patients with X-linked nephrogenic diabetes insipidus. 756 98

Nephrogenic diabetes insipidus (NDI) is a rare X-linked disorder associated with renal tubule resistance to arginine vasopressin (AVP). To understand the mechanisms of AVP resistance underlying this disorder, we have analyzed the vasopressin V2 receptor gene in two unrelated Japanese kindreds with NDI and expressed the mutants to characterize their functional properties. Direct sequencing revealed two V2 receptor gene mutations: a missense mutation from Arg202 to Cys in the third extracellular domain (R202C) and a single base insertion (G) in two consecutive GGG triplets (nucleotide 804 to 809) in the third cytoplasmic domain, resulting in a frame shift with premature termination at codon 258 (804insG). Transient expression study with COS-7 cells showed that R202C mutation reduced both binding affinity (15%) and capacity (30%), while 804insG mutation abolished binding ability. For further evaluation of the binding ability of the R202C mutant, we expressed the mutants in Chinese hamster ovary (CHO) cells. Although the mutant cell lines produced V2 receptor mRNA comparable levels to the wild-type receptor cell lines, R202C mutant cell lines had no binding ability. Our results suggest an introduction of a new cysteine residue in the extracellular domain and a receptor truncation removing one third of the carboxyl terminus could impair ligand binding activity of the V2 receptor through a post-transcriptional mechanism, thereby causing AVP resistance in the NDI patients.
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PMID:Expression studies of two vasopressin V2 receptor gene mutations, R202C and 804insG, in nephrogenic diabetes insipidus. 756 26

We recently identified vasopressin type 2 receptor gene mutations in two unrelated Japanese families with X-linked nephrogenic diabetes insipidus, which were a missense mutation from Arg143 to Pro (R143P) and a single amino acid deletion of Val278 or 279 (delta V278). To investigate the mechanism by which the mutations cause arginine vasopressin (AVP) resistance in this disorder, we expressed them in mammalian cells and analyzed their functional properties. Stable expression study with Chinese hamster ovary (CHO) cells demonstrated that the R143P mutation reduced receptor binding capacity to 10% of normal. However, the R143P mutant itself had a normal affinity for AVP and stimulated adenylyl cyclase production at up to 50% of the wild-type level, suggesting that the mutant receptors could function normally despite their reduced surface expression. In contrast, the delta V278 mutation totally abolished receptor-ligand binding and subsequent adenylyl cyclase stimulation, indicating that delta V278 mutant is virtually nonfunctional receptor. Northern blotting revealed that mutant CHO cell lines produced levels of receptor mRNA similar to the wild-type cell line. Our results suggest that the two mutations impair binding activity of the receptor without affecting mRNA accumulation, thereby causing AVP resistance through a posttranscriptional mechanism.
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PMID:Two vasopressin type 2 receptor gene mutations R143P and delta V278 in patients with nephrogenic diabetes insipidus impair ligand binding of the receptor. 759 29

Mutations in the AVPR2 gene encoding the receptor for arginine vasopressin in the kidney (V2 ADHR) have been reported in patients with congenital nephrogenic diabetes insipidus, a predominantly X-linked disorder of water homeostasis. We have used restriction-enzyme analysis and direct DNA sequencing of genomic PCR product to evaluate the AVPR2 gene in 11 unrelated affected males. Each patient has a different DNA sequence variation, and only one matches a previously reported mutation. Cosegregation of the variations with nephrogenic diabetes insipidus was demonstrated for two families, and a de novo mutation was documented in two additional cases. Carrier detection was accomplished in one family. All the variations predict frameshifts, truncations, or nonconservative amino acid substitutions in evolutionarily conserved positions in the V2 ADHR and related receptors. Of interest, a 28-bp deletion is found in one patient, while another, unrelated patient has a tandem duplication of the same 28-bp segment, suggesting that both resulted from the same unusual unequal crossing-over mechanism facilitated by 9-mer direct sequence repeats. Since the V2 ADHR is a member of the seven-transmembrane-domain, G-protein-coupled receptor superfamily, the loss-of-function mutations from this study and others provide important clues to the structure-function relationship of this and related receptors.
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PMID:Heterogeneous AVPR2 gene mutations in congenital nephrogenic diabetes insipidus. 791 79

Nephrogenic diabetes insipidus (NDI) is characterized by a resistance of the kidney towards arginine vasopressin (AVP). Following molecular cloning of the vasopressin V2 receptor, we identified different mutations in the V2 receptor gene in families with X-linked NDI, which segregated with the disease. The Hopewell mutation (W71X) causes the disease in the largest North American NDI pedigree, with most of its members residing on Nova Scotia. Different mutations were found in three families from the Quebec area (Q-2: R137H, Q-3: R113W, Q-5: 804delG) and in the large Cannon kindred residing in Utah (L312X). In an Iranian family (O-1), another mutation was detected (A132D). Three of the six mutations (Hopewell, Cannon, Q-5) are predicted to cause the expression of a truncated V2 receptor and are therefore unlikely to function. The functional consequences of missense mutations (Q-2, Q-3, O-1) are less obvious. We therefore introduced the Q-2 mutation into wild-type cDNA. When expressed in COS.M6 or Ltk cells, the Q-2 mutant bound AVP with normal affinity. However, cells expressing the Q-2 mutant failed to respond to AVP with an increase in adenylyl cyclase activity. Thus the Q-2 mutant is unable to interact with or to activate the stimulatory G-protein Gs. The present data indicate that X-linked NDI is frequently attributable to a mutation in the V2 receptor gene. In addition, the data prove biochemically that the Q-2 mutation is the cause of NDI in the Q-2 family.
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PMID:Mutations in the vasopressin V2 receptor gene in families with nephrogenic diabetes insipidus and functional expression of the Q-2 mutant. 792 Jan 87

The mutation of the type-2 vasopressin receptor (V2R) apparently responsible for X-linked congenital nephrogenic diabetes insipidus (CNDI) in the Q3 family consists of a T to C transition in codon 113, causing the change of Arg-113 to Trp. Arg-113 is located in the putative first extracellular loop of the V2R next to a frequently conserved Cys thought to interact via a disulfide bridge with a Cys of the second extracellular loop. The present study explored whether this mutation may account for the CNDI phenotype. The mutation was excised from the genomic DNA of a Q3 patient and introduced into the V2R cDNA, which was then placed into an expression plasmid and transfected into COS cells for transient expression and murine L cells for stable expression. Studies with L cells expressing similar levels of wild type and Q3 receptors showed that the mutant receptor has a 20-fold reduced affinity for arginine vasopressin (AVP) and stimulates adenylyl cyclase with an EC50 that is increased by a factor of about 60-fold. The same shift in the EC50 for adenylyl cyclase stimulation was obtained when deamino[8-D-Arg]vasopressin was substituted for AVP. Studies with COS cells revealed that at equal levels of transfected DNA, the mutant receptor is expressed at lower levels (about 20%) than the wild type receptor, indicating that the mutation hinders the transport of the receptor to the cell membrane.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:An extracellular congenital nephrogenic diabetes insipidus mutation of the vasopressin receptor reduces cell surface expression, affinity for ligand, and coupling to the Gs/adenylyl cyclase system. 798 50

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

Novel mutations in the V2 vasopressin receptor gene were identified in two Japanese pedigrees with X-linked congenital nephrogenic diabetes insipidus. The V2 receptor belongs to the family of G-protein-coupled receptors that contain seven distinct transmembrane domains, and the V2 receptor gene is encoded by three exons. The coding regions amplified by polymerase chain reaction were directly sequenced. In a pedigree, one of four consecutive guanine sequences (nucleotides 528-531) in the second exon was deleted (528delG). This deletion mutation results in a frame shift beginning at codon 154 in the second intracellular domain and a premature termination at codon 161. In another pedigree, a missense mutation (A-->G) was identified at nucleotide position 310 in the second exon. This point mutation, H80R, changes a histidine at codon 80 in the second transmembrane domain to an arginine that is more positively charged than histidine under the neutral environment. Each mutation cosegregated with the phenotype of diabetes insipidus and supposed to be a cause for resistance to arginine vasopressin.
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PMID:Novel mutations in the V2 vasopressin receptor gene in two pedigrees with congenital nephrogenic diabetes insipidus. 804 48

Congenital nephrogenic diabetes insipidus (NDI) is an X-linked inherited disorder characterized by renal resistance to the antidiuretic hormonal action of arginine vasopressin. The disease gene has been assigned to the subtelomeric region of the X chromosome long arm by demonstrating close linkage between NDI and several X-chromosomal DNA markers. The finding of closely linked genetic markers is useful in the diagnosis of NDI. Receptor studies in patients have indicated that NDI might be due to the absence or an abnormality of the adenylate cyclase-bound vasopressin type 2 receptor. This assumption was supported by the discovery of functional vasopressin V2 receptor activity in somatic cell hybrid cell lines that carried at least the distal part of the human X chromosome long arm. Definite evidence for a V2 receptor defect being the cause of NDI was found in a recent study demonstrating point mutations in the V2 receptor gene from affected individuals. Direct mutation analysis is now applicable for accurate carrier detection and early (prenatal) diagnosis.
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PMID:Nephrogenic diabetes insipidus: identification of the genetic defect. 825 44


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