UNIPROT:P01185 - FACTA Search

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)

In the concluding section of this review of cancer destruction by disruption of energy metabolism, the cellular mechanism for interfering with energy production is considered in terms of drug resistance arising independently of previous tumor injury. The occurrence of various degrees of damage to cancerous growths as a consequence of secondary shock is interpreted on the basis of elevated levels of stress hormones, including vasopressin, which have earlier been shown to interfere with energy metabolism in a murine sarcoma. Similarly, the indirect action of various antineoplastic procedures can be related to a role for the endocrine system, with particular reference to vasopressin and inappropriate anti-diuretic hormone secretion syndrome. Multiple drug resistance is also discussed, and the mode of action of the topoisomerase inhibitor doxorubicin is critically examined. The basis of selectivity of disruption of energy metabolism by substances such as hydralazine and L-isoproterenol is discussed from the viewpoint of altered activities of antioxidant enzymes in transformed cells, but these considerations alone are not thought to be sufficient to account for the highly specific nature of the antineoplastic action. Conversely, antioxidant enzymes, more especially those concerned with glutathione metabolism, probably play a major role in multiple drug resistance, although in this respect the case of autoxidative cellular injury awaits attention. Theoretical strategies for the intensification of tumor injury include the aim of prolonging the half-lives of lysophosphatides within damaged tissue. Whereas the clinical application of the principle of tumor destruction through selective disruption of energy metabolism is at present compromised for lack of information, the use of phenothiazines as antineoplastic agents is feasible, and awaits serious exploitation. The relative lack of incapacitating side-effects of phenothiazines should provide an attractive change for the clinical oncologist.
Physiol Chem Phys Med NMR 1992
PMID:Cancer destruction in vivo through disrupted energy metabolism. Part III. Spontaneous drug resistance, selectivity of antineoplastic action, and strategies for intensifying tumor injury. 146 33

During vasopressin (VP)-induced water movement, toad urinary bladder epithelial cells undergo unique morphological changes. The osmolality within these responding cells remains relatively stable despite the large transcellular transport of water. We hypothesized that the hydroosmotic response to VP may be associated with a net increase in sodium either as an aid in maintaining the intracellular osmolality or as part of a Na-Ca exchange process. Changes in intracellular sodium (Nai) were monitored over time in individual hemibladders using 23Na NMR. Hemibladders were mounted as bags on glass pipets and filled with deionized water. During NMR studies, the serosal bath consisted of aerated 2.4 mM HCO3 amphibian Ringer's (pH 8.1) made up with 15% D2O containing the shift reagent, dysprosium tripolyphosphate (1 mM). This reagent allowed for visualization of Nai by shifting the extracellular Na signal; it did not affect basal or VP stimulated water flow, short-circuit current, or high energy phosphate metabolism as seen by 31P NMR. Changes in Nai were determined by integrating the area under the unshifted Na peak at each measurement and expressing differences as a ratio relative to baseline. The initial Nai signal from unstimulated hemibladders remained stable in these tissues over at least 180 minutes. Within 30 minutes of VP (20 mU/ml) exposure, however, the Nai peak increased 2.47 times above pretreatment baseline (N = 16, P less than 0.001). The Nai signal returned toward baseline values with removal of VP from the serosal bath but only after approximately 90 minutes. When change in cell shape and water movement were prevented by having isotonic sorbitol in the mucosal bath, VP produced no change in the Nai signal (N = 10).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in intracellular sodium during the hydroosmotic response to vasopressin. 174 8

A combined 1H-NMR and molecular mechanics study of [Cpp1, Sar7]AVP was performed in order to select the most probable conformations in DMSO solutions. The NMR constraints obtained were employed in the selection of starting conformations of the cyclic moiety of the analog. In particular, the diminished accessibility of the Asn5 NH proton to solvent and the close contact between Cpp1 and Cys6 C alpha H protons suggests a beta-turn conformation at the Phe3-Gln4 residues. Energy minimization was carried out both in the ECEPP/2 (rigid-valence geometry) and in the AMBER (flexible-valence geometry) force fields. Comparison of the experimental and calculated values of NMR characteristics has revealed that conformations containing type I, II, and III beta-turns at the Phe3-Gln4 residues are in reasonable agreement with the experimental data, with a dynamic equilibrium between the beta I (beta III) and beta II type structures of the cyclic part being the most probable. All of these conformations prefer the negative chirality of the disulfide bridge (theta 3 approximately -90 degrees). Five representative conformations were chosen for the acyclic tail: one with a beta I, one with a beta II'-turn at the Sar7-Arg8 residues, two extended-type conformations, and a conformation with a gamma-turn at Sar7. Because only high-energy extended conformations were in agreement with NMR data, it was concluded that the acyclic tail has considerable conformational flexibility in solution. The conformations obtained are discussed in terms of the structure-function relationship of the neurohypophyseal hormone analogs.
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PMID:Conformational analysis of [Cpp1, Sar7, Arg8] vasopressin by 1H-NMR spectroscopy and molecular mechanics calculations. 181 87

Structural and dynamic properties of [8-arginine]vasopressin and a class of highly potent vasopressin V1 antagonists which contain 3-mercapto-3,3-cyclopentamethylene propionic acid (Mca) in position 1 of the vasopressin sequence have been determined. On the basis of two-dimensional NMR experiments in dimethyl sulfoxide solution, interproton distances were derived according to which model conformations were built and refined using molecular dynamics simulations. The conformation of vasopressin and the V1 antagonists differ mainly in the region of the mutated residue. The antagonistic property was found to be related to an inversed chirality of the disulfide bridge. In all investigated molecules, characteristic beta-turn structure elements were found for the backbone conformation of the endocyclic residues Tyr2-Asn5. For this portion of the peptide sequence, various conformational equilibria were detected which matched different time scales. For [Arg8]vasopressin, averaged NMR parameters were obtained which could be explained by rapid interconversion between different beta-turn geometries, whereas multiple slowly exchanging conformations were observed for the V1 antagonists. V1 antagonists containing sarcosine in position 7 exhibited multiple spectral patterns for the exocyclic part attributed to cis/trans isomerization. The X-ray structure of deamino-oxytocin [Wood, S. P., Tickle, I. J., Treharne, A. M., Pitts, J. E., Mascarenhas, Y., Li, J. Y., Husain, J., Cooper, S., Blundell, T. L., Hruby, V. J., Buku, A., Fischman, A. J. & Wyssbrod, H. R. (1986) Science 232, 633-636] was found to represent one sample of the conformational space covered by the multiple conformations found for [Mca1, Arg8]vasopressin.
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PMID:Conformation of [8-arginine]vasopressin and V1 antagonists in dimethyl sulfoxide solution derived from two-dimensional NMR spectroscopy and molecular dynamics simulation. 193 33

Nanosecond time-resolved tyrosinate fluorescence lifetimes were compared for oxytocin (OXT) and vasopressin (AVP) in propylene glycol. Long-lifetime tyrosinate fluorescence (LTF), characteristic of stable intramolecular hydrogen bond formation of the Tyr hydroxyl group, was present for OXT but not AVP in propylene glycol. The Tyr OH proton was also found to be labile for OXT but not AVP in DMSO by 1H-NMR. The spectroscopic data illustrate that the Tyr hydroxyl in OXT participates in an intramolecular hydrogen bond in certain receptor-simulating environments; the absence of potent LTF for [Ala5] OXT suggests that the Tyr hydroxyl of OXT forms an H-bond with the Asn5 carboxamide side-chain. The lability of the Tyr OH proton of OXT, but not AVP, is in accord with the biological activities of the peptides (OXT 100%, AVP 1%) in the rat uterus assay, suggesting that propylene glycol and DMSO mimic the environment at uterine receptors. 1H-NMR studies in DMSO demonstrate that for AVP there is a perpendicular-plate ring pairing interaction between the Tyr and Phe side-chains in which the hexagonal axis of the Tyr ring interacts with the face of the Phe ring. The present findings are discussed in terms of the proposed "cooperative model" for neurohypophysial hormone action.
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PMID:Tyrosinate fluorescence lifetimes for oxytocin and vasopressin in receptor-simulating environments: relationship to biological activity and 1H-NMR data. 217 14

Five chronic alcoholic patients admitted for detoxification were studied. During the first 24-48 hr of abstinence raised levels of cerebral water (as measured by NMR), vasopressin, renin and supine aldosterone were recorded. Initial vasopressin concentration was correlated (r = 0.88, P less than 0.05) with alcohol consumption in the week prior to admission and was over three times higher in the patients measured after 24-48 hr as compared to less than 24 hr. After one week only supine aldosterone was still raised (P less than 0.05). The results suggest that cerebral oedema occurs during the early stages of abstinence. The role of these changes in the aetiology of withdrawal symptoms, delirium tremens and brain damage remains to be elucidated.
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PMID:An NMR study of cerebral oedema and its biological correlates during withdrawal from alcohol. 329 84

NMR was used to monitor the binding to neurophysin of oxytocin and 8-arginine-vasopressin, 15N labeling being used to identify specific backbone 15N and 1H signals. The most significant effects of binding were large downfield shifts in the amino nitrogen resonance of Phe-3 of vasopressin and in its associated proton, providing evidence that the peptide bond between residues 2 and 3 of the hormones is hydrogen-bonded to the protein within hormone-neurophysin complexes. Suggestive evidence of hydrogen bonding of the amino nitrogen of Tyr-2 was also obtained in the form of decreased proton exchange rates on binding; however, the chemical shift changes of this nitrogen and its associated proton indicated that such hydrogen bonding, if present, is probably weak. Shifts in the amino nitrogen of Asn-5 and in the -NH protons of both Asn-5 and Cys-6 demonstrated that these residues are significantly perturbed by binding, suggesting conformational changes of the ring on binding and/or the presence of binding sites on the hormone outside the 1-3 region. No support was obtained for the thesis that there is a significant second binding site for vasopressin on each neurophysin chain. The behavior of both oxytocin and vasopressin on binding was consistent with formation of 1:1 complexes in slow exchange with the free state under most pH conditions. At low pH there was evidence of an increased exchange rate. Additionally, broadening of 15N resonances in the bound state at low pH occurred without a corresponding change in the resonances of equilibrating free hormone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Binding of oxytocin and 8-arginine-vasopressin to neurophysin studied by 15N NMR using magnetization transfer and indirect detection via protons. 342 16

2D 1H-NMR spectra of des-Gly9-[Arg8]vasopressin in dimethylsulfoxide have been taken and the 1H resonances have been assigned. The coupling constants and amide proton temperature coefficients (delta delta/delta T) have been measured and the NOE cross-peaks in the NOESY spectrum have been analyzed. The most essential information on the spatial structure of des-Gly9-[Arg8]vasopressin is extracted from the low delta delta/delta T value for Asn5 amide proton and from the NOE between the Cys1 and Cys6 alpha-protons. A diminished accessibility of the Asn5 NH proton for the solvent is ascribed to the presence of a beta-turn in the fragment 2-5. The distance between the Cys1 and Cys6 C alpha H protons seems to be less than 4 A. These constraints were taken into account in the conformational analysis of the title peptide. The derived set of the low-energy backbone conformations was analyzed against the background of the all available NMR data. The most probable conformation of the cyclic moiety in des-Gly9-[Arg8]vasopressin was found to be the type III beta-turn. The corner positions are occupied by the residues 3, 4, while the residues 1-2 and 5-6 are at the extended sites. Some NMR data indicate that this structure is in a dynamic equilibrium with other minor conformers.
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PMID:[Study of the spatial structure of des-Gly9-[Arg8]vasopressin by two-dimensional NMR spectroscopy and theoretical conformation analysis]. 406 95

The peaks in the proton NMR spectrum of lysine-vasopressin in aqueous solution at pH 3-5 were assigned to particular amino-acid residues by the use of the results of dilution studies and NH-C(alpha)H and C(alpha)H-C(beta)H decoupling experiments. The conformation of lysine-vasopressin in water differs from its conformation in dimethylsulfoxide.
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PMID:Nuclear magnetic resonance spectrum of lysine-vasopressin in aqueous solution and its structural implictions. 450 86

The 220-MHz proton NMR spectra of lysine-vasopressin and some related compounds are examined in deuterated dimethyl sulfoxide to obtain structural information that must be satisfied by any proposed conformation of the molecule. This structural information is in the form of dihedral angles (for rotation about the NH-C(alpha)H bonds) from coupling constants, possible hydrogen bonding of the CONH(2) and backbone amide groups from the temperature-dependence of the chemical shift, and aromatic ring-aromatic ring interaction from the effect of the magnetically anisotropic groups on the chemical shift.
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PMID:Nuclear magnetic resonance studies of lysine-vasopressin: structural constraints. 528 51

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