Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using as models the neurohypophyseal nonapeptide hormone oxytocin and its analogue deaminooxytocin, several directed routes to formation of sulfur-sulfur bridges have been developed and evaluated. The linear sequences (through common octapeptide-resin intermediates) were assembled smoothly on tris(alkoxy)benzylamide (PAL) poly(ethylene glycol)-polystyrene (PEG-PS) graft supports, using stepwise Fmoc solid-phase chemistry. Side-chain protection of beta-mercaptopropionic acid (Mpa) and/or cysteine (Cys) was provided by S-2,4,6-trimethoxybenzyl (Tmob), S-acetamidomethyl (Acm), and/or a series of sulfenyl thiocarbonate and carbamoylsulfenyl protecting/activating groups: S-(methoxycarbonyl)sulfenyl (Scm), S-(methoxycarbonyl)disulfanyl (Sscm), S-(N-methyl-N-phenylcarbamoyl)sulfenyl (Snm), and S-(N-methyl-N-phenylcarbamoyl)disulfanyl (Ssnm). Thiolytic displacement of S-Snm (preferred) or S-Scm provided intramolecular cyclized peptide disulfides, and homologation of the chemistry with S-Ssnm (again preferred) and S-Sscm provided the corresponding trisulfides along with smaller amounts of disulfides and tetrasulfides. These chemistries could be implemented both in solution and in solid-phase modes. Various parameters were studied systematically and optimized, and the novel trisulfides of oxytocin and deaminooxytocin were synthesized and purified to homogeneity. The trisulfide compounds were evaluated in three assays: uterotonic in vitro, uterotonic in vivo, and pressor tests, and they showed substantial potencies, ranging from 5% to 40% of the parent (disulfide) activities, as well as protracted actions. The affinities of the peptide trisulfides to uterine membrane receptors were only 3.3-3.6-fold lower than those of the parent disulfides. Possible explanations of the biological results are discussed.
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PMID:Synthesis and pharmacology of novel analogues of oxytocin and deaminooxytocin: directed methods for the construction of disulfide and trisulfide bridges in peptides. 908 75

Palmitoylation of the V2 vasopressin receptor (V2R) and its functional role were investigated in transfected cells. Palmitoylation was assessed by incubating transfected cells with [3H]palmitic acid and immunoprecipitating the receptor with an antibody raised against a portion of the third intracellular loop of V2R. Wild-type and nonglycosylated V2R yielded tritium signals at 45-55 and 40 kDa, respectively, demonstrating that the V2R is palmitoylated and that receptor palmitoylation is independent of glycosylation. Substitution of CC341/342 for serines eliminated receptor palmitoylation, whereas replacement of a single amino acid, C341S or C342S, restored partial palmitoylation. Saturation binding assays revealed decreased cell surface expression of the nonpalmitoylated receptor compared with the wild-type; this effect was more pronounced when a truncated form of V2R (G345ter) was studied. The presence of either cysteine residue (C341S or C342S) elevated receptor expression to normal levels, most likely due to the partial restoration of palmitoylation. Ligand binding affinity, hormone-induced stimulation of adenylyl cyclase activity, receptor internalization, and desensitization were not affected by the absence of palmitoylation. No increase but rather a slight decrease in the extent of receptor palmitoylation was detected after exposure to vasopressin. It was concluded that the V2R is palmitoylated in both cysteines, each cysteine is palmitoylated independently from the other, and palmitoylation enhances cell surface expression of the V2R.
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PMID:Palmitoylation of the V2 vasopressin receptor. 922 8

Analogues of arginine-vasopressin (AVP) in which substitution of the proline residue in position 7 (by either sarcosine or N-methylalanine) combined with replacement of the cysteine residue in position 1 were the subject of a fluorescence and molecular mechanics study. We obtained two groups of analogues: selective antidiuretic agonists (cysteine or beta-mercaptopropionic acid in position 1) and pressor and uterotonic antagonists (deaminopenicillamine or beta-mercapto-beta, beta-cyclopentamethylenepropionic acid in position 1). Using frequency-domain measurements of fluorescence resonance energy transfer (FRET) we estimated the distance distribution between the phenolic ring of Tyr2 and the disulphide bridge Cys1-Cys6. We also analyzed acrylamide quenching of tyrosyl fluorescence to determine the exposure of the tyrosyl ring to the solvent. Results from fluorescence experiments were compared with those from Monte Carlo simulation (ECEPP/3 force-field).
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PMID:Fluorescence study of neurohypophyseal hormones and their analogues. Distance distributions in a series of arginine-vasopressin analogues. 923 46

To study the vasopressin receptor domains involved in the hormonal binding, we synthesized natural and modified fragments of V1a vasopressin receptor and tested their abilities to affect hormone-receptor interactions. Natural fragments mimicking the external loops one, two, and three were able to inhibit specific vasopressin binding to V1a receptor. In contrast, the natural N-terminal part of the V1a vasopressin receptor was found inactive. One fragment, derived from the external second loop and containing an additional C-terminal cysteine amide, was able to fully inhibit the specific binding of both labeled vasopressin agonist and antagonist to rat liver V1a vasopressin receptor and the vasopressin-sensitive phospholipase C of WRK1 cells. The peptide-mediated inhibition involved specific interactions between the V1a receptor and synthetic V1a vasopressin receptor fragment since 1) it was dependent upon the vasopressin receptor subtype tested (Ki(app) for the peptide: 3.7, 14.6, and 64.5 microM for displacing [3H]vasopressin from rat V1a, V1b, and V2 receptors, respectively; 2) it was specific and did not affect sarcosin 1-angiotensin II binding to rat liver membranes; 3) it was not mimicked by vasopressin receptor unrelated peptides exhibiting putative detergent properties; and 4) no direct interaction between [3H]vasopressin and synthetic peptide linked to an affinity chromatography column could be observed. Such an inhibition affected both the maximal binding capacity of the V1a vasopressin receptor and its affinity for the labeled hormone, depending upon the dose of synthetic peptide used and was partially irreversible. Structure-activity studies using a serie of synthetic fragments revealed the importance of their size and cysteinyl composition. These data indicate that some peptides mimicking extracellular loops of the V1a vasopressin receptor may interact with the vasopressin receptor itself and modify its coupling with phospholipase C.
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PMID:Synthetic rat V1a vasopressin receptor fragments interfere with vasopressin binding via specific interaction with the receptor. 926 Nov 4

Familial neurohypophyseal diabetes insipidus (FNDI) is an autosomal dominant disease caused by deficiency in the antidiuretic hormone arginine vasopressin (AVP) encoded by the AVP-neurophysin II (AVP-NPII) gene on chromosome 20p13. In this study, we analyzed two families with FNDI using direct automated fluorescent, solid phase, single-stranded DNA sequencing of PCR-amplified AVP-NPII DNA. In one of the families, affected individuals presented a novel nonsense mutation in exon 3 of the gene, consisting in a G to T transition at nucleotide 2101, which produces a stop signal in codon 82 (Glu) of NPII. The premature termination eliminates part of the C-terminal domain of NPII, including a cysteine residue in position 85, which could be involved in the correct folding of the prohormone. In the second family, a G279A substitution at position -1 of the signal peptide was observed in all affected individuals. This missense mutation, which replaces Ala with Thr, is frequent among FNDI patients and is thought to reduce the efficiency of cleavage by signal peptidases.
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PMID:Identification of a novel nonsense mutation and a missense substitution in the vasopressin-neurophysin II gene in two Spanish kindreds with familial neurohypophyseal diabetes insipidus. 958 Jan 32

Familial diabetes insipidus (FDI) is a syndrome of central vasopressin deficiency that is inherited in an autosomal dominant manner and that typically becomes clinically apparent in the first decade of life. Two novel mutations of the vasopressin gene have been identified in two previously unstudied kindreds with FDI. In each kindred, the inheritance of the FDI phenotype was consistent with an autosomal dominant mode of inheritance. In each proband, the diagnosis of central diabetes insipidus had been confirmed previously with a water deprivation protocol. After extraction of genomic DNA from each individual, the three exons of the vasopressin gene were separately amplified by PCR and directly sequenced using an automated dye termination method. In the proband and two other carriers of one kindred, a heterozygous C to T mutation was identified at nucleotide 1857. This is predicted to produce a serine to phenylalanine substitution at residue 56 of the vasopressin-related neurophysin peptide encoded by the mutated allele. The mutation also abolished an MspI site in the vasopressin sequence, and analysis of genomic DNA from eight members of the kindred (five with FDI) confirmed segregation of the mutation with the FDI phenotype. Another member of the kindred, a 13-month-old infant, also has the heterozygous C to T mutation, but a formal water balance study showed no evidence of diabetes insipidus. In the proband of the other kindred, a heterozygous G to A mutation was identified at nucleotide 1873. This mutation would be predicted to cause a cysteine to tyrosine substitution at residue 61 of the neurophysin encoded by the mutated allele. This heterozygous mutation was confirmed by the presence of an RsaI restriction site in one vasopressin allele in two members of the kindred. Therefore, two novel heterozygous mutations of the vasopressin gene have been identified in FDI kindreds. In one kindred, an asymptomatic carrier infant was identified and will require continued observation to determine whether she will develop clinical diabetes insipidus. The presence of these two novel mutations in a region of the vasopressin gene where other FDI mutations have been reported suggests that the part of the neurophysin peptide encoded by these sequences may be critically important in the appropriate expression of vasopressin.
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PMID:Two novel mutations of the vasopressin gene associated with familial diabetes insipidus and identification of an asymptomatic carrier infant. 981 75

Synthesis, processing and agonist-induced modifications of the V2 vasopressin receptor were examined in stably or transiently transfected HEK293 cells. Metabolic labeling with S methionine for 30 min revealed a predominant precursor protein which subsequently gave rise to the mature receptor on the cell surface. Maturation of the receptor was unrelated to glycosylation suggesting that it was the consequence of protein refolding. In addition to monomeric forms of V2 receptor protein, oligomers of the precursor protein were also detected in SDS-PAGE. These oligomers seemed to be dimers and tetrameres, and were more apparent in transiently transfected cells that produced higher quantities of protein then stably transfected cells. No oligomers of the mature receptor were detected, and co-transfection of the wild type with a mutant V2 receptor lacking G-protein coupling activity did not alter the function of the wild type receptor. These results indicated that the formation of oligomeric was most likely a consequence of overproduction of the protein and not a required step for receptor function. Addition of vasopressin promoted phosphorylation and sequestration of the wild type receptor, and of the R137H mutant receptor which lacks coupling to G proteins. Activation of protein kinases A or C did not result in phosphorylation of un-occupied receptor. Phosphate incorporated into the protein was stable in the continuous presence of the ligand despite sequestration of the receptor protein. Deletion of the last 14 amino acids abolished receptor phosphorylation but not sequestration and desensitization, indicating that these two processes are not dependent on protein phosphorylation. Additionally, phosphorylation and sequestration of the R137H mutant receptor revealed that phosphorylation and sequestration does not require coupling to Gs. The wild type V2 vasopressin receptor was found to be palmitoylated at two cysteines at the carboxyl terminus. Either cysteine could be palmitoylated independently of each other and the presence of at least one was required to obtain receptor expression similar to the wild type. The turnover of the palmitic acid incorporated into the receptor was not altered by the addition of vasopressin demonstrating that this post-translational modification of the receptor was not altered by the ligand-promoted phosphorylation of the protein.
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PMID:Processing and ligand-induced modifications of the V2 vasopressin receptor. 1002 23

Autosomal dominant neurohypophyseal diabetes insipidus is caused by mutations in the gene encoding the vasopressin precursor protein, prepro-vasopressin-neurophysin II. We analyzed the molecular consequences of a mutation (DeltaG227) recently identified in a Swiss kindred that destroys the translation initiation codon. In COS-7 cells transfected with the mutant cDNA, translation was found to initiate at an alternative ATG, producing a truncated signal sequence that was functional for targeting and translocation but was not cleaved by signal peptidase. The mutant precursor was completely retained within the endoplasmic reticulum. The uncleaved signal did not affect folding of the neurophysin portion of the precursor, as determined by its protease resistance. However, formation of disulfide-linked aggregates indicated that it interfered with the formation of the disulfide bond in vasopressin, most likely by blocking its insertion into the hormone binding site of neurophysin. Preventing disulfide formation in the vasopressin nonapeptide by mutation of cysteine 6 to serine was shown to be sufficient to cause aggregation and retention. These results indicate that the DeltaG227 mutation induces translation of a truncated signal sequence that cannot be cleaved but prevents correct folding and oxidation of vasopressin, thereby causing precursor aggregation and retention in the endoplasmic reticulum.
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PMID:Mechanism of endoplasmic reticulum retention of mutant vasopressin precursor caused by a signal peptide truncation associated with diabetes insipidus. 1038 95

The structural requirements for internalization and signalling of the vasopressin V1a receptor were investigated in stably transfected HEK-293 cells. Removal of the 51 C-terminal amino acids did not affect vasopressin binding, calcium signalling, heterologous desensitization or internalization of the receptor. Deletion of 14 additional amino acids reduced vasopressin-dependent calcium increase and impaired receptor internalization. Substitution of cysteines 371-372 did not affect intracellular signalling, but decreased endocytosis by 26%. Substitution of the 361-362 leucine by alanine residues reduced by 56% V1a receptor sequestration without affecting calcium signalling. These results indicate that di-cysteine and mostly di-leucine motifs present in the C-terminal region of the V1a receptor are involved in its internalization.
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PMID:Role of the carboxyl-terminal region, di-leucine motif and cysteine residues in signalling and internalization of vasopressin V1a receptor. 1054 54

Parallel and antiparallel heterodimers have been synthesized that combine into a single molecule the neurohypophyseal hormone oxytocin and the potent vasopressin V(2)-antagonist d(CH(2))(5)[D-Ile(2), Ile(4)]arginine vasopressin. Solid-phase synthesis with N(alpha)-9-fluorenylmethyloxycarbonyl (Fmoc) chemistry, featuring appropriate combinations of orthogonal protecting groups for the thiols [S-(N-methyl-N-phenylcarbamoyl)sulfenyl (Snm); S-acetamidomethyl (Acm); S-triphenylmethyl (Trt)], was used to assemble the required linear nonapeptide amide monomer intermediates, which were then brought together in defined ways by solution reactions to provide the two heterodimers. The first disulfide bridge was formed by a directed approach involving attack by the free thiol of the 1-beta-mercapto-beta, beta-cyclopentamethylenepropionic acid (Pmp) residue of one monomer onto the Snm group of a cysteine residue on the other monomer; the inverse directed strategy failed due to steric hindrance. The second disulfide bridge was formed by iodine co-oxidation of Cys(Acm) residues on adjacent chains. Biological studies revealed that both the parallel and antiparallel chimeras lack pressor activity, have low uterotonic activity, and have diuretic activities comparable to that of the monomeric V(2)-antagonist. Sodium excretion depends on experimental conditions. Thus, with a 4% water load, both chimeras display effects similar to that of an equimolar mixture of oxytocin and V(2)-antagonist, i.e., lower sodium excretion than that resulting from administration of oxytocin alone but higher than that when V(2)-antagonist was administered alone. However, when no water load was used, the parallel chimera proved to be more effective in promoting sodium excretion than either oxytocin alone or an equimolar mixture of oxytocin and V(2)-antagonist.
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PMID:Chemical syntheses and biological studies on dimeric chimeras of oxytocin and the V(2)-antagonist, d(CH(2))(5)[D-Ile(2), Ile(4)]arginine vasopressin. 1058 9


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