UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In recent years, a massive effort has been directed towards designing potent and selective antagonists of neurohypophyseal hormones substituted at position 3. Modification of vasopressin at position 3 with 4,4'-biphenylalanine results in pharmacologically inactive analogues. Chemically, this substitution appears to vary only slightly from those previously made by us (1-Nal or 2-Nal), which afforded potent agonists of V(2) receptors. In this situation, it seemed worthwhile to study the structure of the analogues with 4,4'-biphenylalanine (BPhe) at position 3 in aqueous solution using NMR spectroscopy and total conformational analysis. This contribution is part of extensive studies aimed at understanding spatial structures of 3-substituted [Arg(8)]vasopressin analogues of different pharmacological properties. NMR data were used to calculate 3D structures for all the analogues using two methods, EDMC with the ECEPP/3 force field, and molecular dynamic with the simulated annealing (SA) algorithm. The structures obtained by the first method show a better fit between the NMR spectral evidence and the calculation for all the peptides.
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PMID:Solution structure of conformationally restricted vasopressin analogues. 1509 23

Two cyclic analogs of vasopressin, -Pro-Arg-Gly-NH(2) (1) and -Pro-Arg-Gly-NH(2) (2) were synthesized by the solid phase method. Their structure was determined in aqueous solution by two-dimensional NMR techniques and simulated annealing algorithm from an extended template in X-PLOR. The total chemical shift correlation spectroscopy and rotating-frame Overhauser enhancement spectroscopy of the peptides displayed four distinct sets of residual proton resonances. This suggests that both analogs adopt four families of conformations in H(2)O/D(2)O (9 : 1) (one major and three minor species). In further analysis only signals of major species (M) and of one minor species (m(1)) were considered. The major species of both peptides include a trans peptide bond between the first and second residue, and a cis form between the second and third residue. In the minor species, all peptide bonds were found to exist in trans geometry.
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PMID:Cis/trans conformational equilibrium across the N-methylphenylalanine- N-methylphenylalanine peptide bond of arginine vasopressin analogs. 1510 51

To identify molecules that might contribute to V2 vasopressin receptor (V2R) trafficking or signaling, we searched for novel interacting proteins with this receptor. Preliminary data, using the V2R C terminus as bait in a yeast two-hybrid screen, revealed calmodulin as a binding partner. Because calmodulin interacts with other G protein-coupled receptors, we explored this interaction and its possible functional relevance in greater detail. A Ca2+ -dependent interaction occurs between calmodulin-linked agarose and the holo-V2R as well as the V2R C terminus. Truncation and site-directed mutagenesis of the V2R C terminus revealed an involvement of an RGR sequence in this interaction. NMR studies showed that a peptide fragment of the V2R C terminus containing the RGR sequence binds to calmodulin in a Ca2+ -dependent manner with a Kd < or =1.5 microm; concentration-dependent binding of the V2R C terminus to calmodulin-agarose was used to estimate a Kd value of approximately 200 nm for this entire C-terminal sequence as expressed in mammalian cells. Madin-Darby canine kidney II cells stably expressing either wild type or a mutant V2R, in which the RGR C-terminal sequence was mutated to alanines (AAA V2R), revealed that the steady-state localization and agonist-induced internalization of the AAA V2R resembled that of the wild type V2R in polarized Madin-Darby canine kidney II cells. V2R binding of agonist similarly was unchanged in the AAA V2R, as was the concentration response for arginine vasopressin (AVP)-stimulated cAMP accumulation. Most interestingly, AVP-induced increases in intracellular Ca2+ observed for the wild type V2R were virtually eliminated for the AAA V2R. Taken together, the data suggest that a C-terminal region of the V2R important for calmodulin interaction is also important in modulation of V2R elevation of intracellular Ca2+, a prerequisite for AVP-induced fusion of aquaporin-containing vesicles with the apical surface of renal epithelial cells.
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PMID:Calmodulin interacts with the V2 vasopressin receptor: elimination of binding to the C terminus also eliminates arginine vasopressin-stimulated elevation of intracellular calcium. 1531 42

The 13C and 15N backbone-labeled proline was prepared using Oppolzer's method based on application of a sultam as chiral auxiliary. This isotopomer was used in the synthesis of the 13C, 15N backbone-labeled C-terminal tripeptide amide fragment of neurohypophyseal hormone oxytocin. Finally, this tripeptide amide was coupled by segment condensation with N-Boc- or N-Fmoc-tocinoic acid, followed by N-deprotection with TFA or piperidine. The labeled oxytocin exhibited biological activity identical with that of natural oxytocin. A detailed 1H, 13C and 15N NMR study confirmed the assigned oxytocin conformation containing a beta-turn in the cyclic part of the molecule, stabilized by H-bond(s) that can be perturbed by the C-terminal tripeptide amide moiety as indicated by comparison of NMR data for both the tocine ring in oxytocin and tocinoic acid.
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PMID:Synthesis and utilization of 13C and 15N backbone-labeled proline: NMR study of synthesized oxytocin with backbone-labeled C-terminal tripeptide amide. 1579 94

The solution conformation of vasopressin analogues, modified at positions 2 and 3 with N-methylphenylalanine or its enantiomer, [D-MePhe2,MePhe3]AVP and [MePhe2,D-MePhe3]AVP, were studied by 2D NMR spectroscopy in H2O/D2O and theoretical calculations (EDMC/ANALYZE). In the case of [MePhe2,D-MePhe3]AVP, the synthesis afforded two products, A and B, which had identical molecular ions and similar retention times on HPLC. This finding was explained by racemization of Cys1, which gave an additional analogue, [D-Cys1,MePhe2,D-MePhe3]AVP (B). The possibility is not excluded of racemization of Cys1 in the remaining analogues of this series. However, only in the case of [MePhe2,D-MePhe3]AVP was this process so distinct that two strong peaks in the HPLC chromatogram were observed. The NMR spectra of all the analogues showed several distinct sets of residual proton resonances. This suggests that the peptides adopt more than two groups of conformations in H2O/D2O. This fact is due to cis/trans isomerization. Two more populated isomers arise from the cis/trans isomerization across the 2-3 peptide bond in [D-MePhe2,MePhe3]AVP and [MePhe2,D-MePhe3]AVP (A) and across the 1-2 peptide bond in [D-Cys1,MePhe2,D-MePhe3]AVP (B).
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PMID:Investigation of cis/trans ratios of peptide bonds in AVP analogues containing N-methylphenylalanine enantiomers. 1595 24

In this study, four cyclic vasopressin (CYFQNCPRG-NH(2), AVP) analogues substituted at positions 2 and 3 with four combinations of enantiomers of N-methylphenylalanine have been investigated. Three-dimensional structures of analogues have been formerly determined using NMR spectroscopy in dimethyl sulfoxide. Three-dimensional models of the vasopressin and oxytocin receptors were constructed by combining the multiple sequence alignment and the RD crystal structure as a template. The analogues have been docked into the receptor using the AutoDock program. The relaxation of the receptor-ligand complexes using energy minimization, followed by the constrained simulated annealing protocols (CSA), has been performed. The receptor-bound conformations of the investigated analogues have been proposed. We concluded that the N-methylated residues at positions 2 and 3 act as a structural restraint, determining the conformation of analogues, their location inside the receptor cavity, and mutual arrangement of the aromatic side chains. The conserved polar residues constitute the handles keeping the biologically active analogues inside the binding cavity. The Arg(8)-D(2.65) salt bridge might be responsible for analogue-selective binding in OTR and V1aR versus V2R, where the positively charged K(2.65) 100 is present at the equivalent position.
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PMID:Molecular docking-based study of vasopressin analogues modified at positions 2 and 3 with N-methylphenylalanine: influence on receptor-bound conformations and interactions with vasopressin and oxytocin receptors. 1661 Jul 89

Vasopressins and oxytocins are homologous, ubiquitous and multifunctional peptides present in animals. Conopressins are vasopressin/oxytocin-related peptides that have been found in the venom of cone snails, a genus of marine predatory molluscs that envenom their prey with a complex mixture of neuroactive peptides. In the present paper, we report the purification and characterization of a unique conopressin isolated from the venom of Conus villepinii, a vermivorous cone snail species from the western Atlantic Ocean. This novel peptide, designated gamma-conopressin-vil, has the sequence CLIQDCPgammaG* (gamma is gamma-carboxyglutamate and * is C-terminal amidation). The unique feature of this vasopressin/oxytocin-like peptide is that the eighth residue is gamma-carboxyglutamate instead of a neutral or basic residue; therefore it could not be directly classified into either the vasopressin or the oxytocin peptide families. Nano-NMR spectroscopy of the peptide isolated directly from the cone snails revealed that the native gamma-conopressin-vil undergoes structural changes in the presence of calcium. This suggests that the peptide binds calcium, and the calcium-binding process is mediated by the gamma-carboxyglutamate residue. However, the negatively charged residues in the sequence of gamma-conopressin-vil may mediate calcium binding by a novel mechanism not observed in other peptides of this family.
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PMID:A vasopressin/oxytocin-related conopeptide with gamma-carboxyglutamate at position 8. 1733 Oct 75

Arginine vasopressin (AVP) and mesotocin (MT) belong to the neurohypophyseal hormone family. The former plays a very important role in the control of urine concentration and the blood pressure in mammals, whereas the latter stimulates uterine concentration and initiates birth in amphibians, marsupials, wallabies, birds, and fishes. Analysis of their 3D structure could be helpful for understanding the evolutionary relationship between all vasopressin- and oxytocin-like hormones. In addition, it allows design of new analogs with appropriate biological activity for humans and animals. In this paper, we present the conformational studies of AVP and MT, under the aqueous conditions. In our investigations, we used 2D NMR spectroscopy and time-averaged molecular dynamics calculations in explicit water. Our studies have shown that both peptides, despite displaying a high sequence homology, differ from each other with regard to the three-dimensional structure. They are in conformational equilibrium as a result of the cis/trans isomerization across the Cys(6)-Pro(7) peptide bond. Both peptides form beta-turns in their cyclic part, wherein the C-terminal fragment of MT is bent, whereas that of AVP is extended.
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PMID:Conformational studies of vasopressin and mesotocin using NMR spectroscopy and molecular modelling methods. Part I: Studies in water. 1792 95

We report the discovery of conopressin-T, a novel bioactive peptide isolated from Conus tulipa venom. Conopressin-T belongs to the vasopressin-like peptide family and displays high sequence homology to the mammalian hormone oxytocin (OT) and to vasotocin, the endogenous vasopressin analogue found in teleost fish, the cone snail's prey. Conopressin-T was found to act as a selective antagonist at the human V 1a receptor. All peptides in this family contain two conserved amino acids within the exocyclic tripeptide (Pro7 and Gly9), which are replaced with Leu7 and Val9 in conopressin-T. Whereas conopressin-T binds only to OT and V 1a receptors, an L7P analogue had increased affinity for the V 1a receptor and weak V2 receptor binding. Surprisingly, replacing Gly9 with Val9 in OT and vasopressin revealed that this position can function as an agonist/antagonist switch at the V 1a receptor. NMR structures of both conopressin-T and L7P analogue revealed a marked difference in the orientation of the exocyclic tripeptide that may serve as templates for the design of novel ligands with enhanced affinity for the V 1a receptor.
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PMID:Conopressin-T from Conus tulipa reveals an antagonist switch in vasopressin-like peptides. 1817 56

The V2 vasopressin receptor is a G-protein-coupled receptor that regulates the renal antidiuretic response. Its third intracellular loop is involved in the coupling not only with the GalphaS protein but also with gC1qR, a potential chaperone of G-protein-coupled receptors. In this report, we describe the NMR solution structure of the V2 i3 loop under a cyclized form (i3_cyc) and characterize its interaction with gC1qR. i3_cyc formed a left-twisted alpha-helical hairpin structure. The building of a model of the entire V2 receptor including the i3_cyc NMR structure clarified the side-chain orientation of charged residues, in agreement with literature mutagenesis reports. In the model, the i3 loop formed a rigid helical column, protruding deep inside the cytoplasm, as does the i3 loop in the recently elucidated structure of squid rhodopsin. However, its higher packing angle resulted in a different structural motif at the intracellular interface, which may be important for the specific recognition of GalphaS. Moreover, we could estimate the apparent K(d) of the i3_cyc/gC1qR complex by anisotropy fluorescence. Using a shorter and more soluble version of i3_cyc, which encompassed the putative site of gC1qR binding, we showed by NMR saturation transfer difference spectroscopy that the binding surface corresponded to the central arginine cluster. Binding to gC1qR induced the folding of the otherwise disordered short peptide into a spiral-like path formed by a succession of I and IV turns. Our simulations suggested that this folding would rigidify the arginine cluster in the entire i3 loop and would alter the conformation of the cytosolic extensions of TM V and TM VI helices. In agreement with this conformational rearrangement, we observed that binding of gC1qR to the full-length receptor modifies the intrinsic tryptophan fluorescence binding curves of V2 to an antagonist.
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PMID:Structure of the third intracellular loop of the vasopressin V2 receptor and conformational changes upon binding to gC1qR. 1928 6

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