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)

The effects of vasopressin and some of its inhibitors on the extent of MT polymerization (assembly) were studied in renal medullary slices by means of temperature-dependent polymerization-depolymerization procedure to determine the relative ratio of free (unpolymerized) tubulin to assembled MT's. Assembled MT's were stabilized in a medium containing high concentrations of glycerol and DMSO. Tubulin was assessed indirectly by the [3H]-CLC-binding assay. Incubation of slices at temperatures higher than 20 degree C promoted MT polymerization. Although vasopressin markedly increased the tissue levels of cAMP and activated in situ cAMP-dependent protein kinase, it did not change the extent of MT polymerization. On the other hand, VBL and to a lesser degree lithium chloride inhibited the rate of MT assembly. This finding suggests that VBL and lithium, which are known to inhibit the antidiuretic effect of vasopressin in vivo, may exert at least part of their inhibitory effect by interfering with MT assembly in the renal medulla. Present results thus are consistent with the view that vasopressin does not influence the extent of cytoplasmic MT polymerization in spite of the increase in tissue cAMP level and activation of protein kinase but that inact MT's are required for the cellular action of vasopressin.
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PMID:Microtubule assembly in renal medullary slices: effects of vasopressin, vinblastine, and lithium. 68 12

The conformation of oxytocin, the neurohypophyseal nonapeptide hormone, in solution in deuterated dimethyl sulfoxide has been determined by 1H-nmr. The structural determination is based on the experimental data set of nuclear Overhauser effect restraints. Obtained after the restrained molecular dynamics simulation on an initial structure of extended conformation, five resultant structures satisfy the experimental restraints well. These structures resemble that of the crystal structure of deamino-oxytocin, an analogue of oxytocin, in terms of a close correlation observed both at two beta-turn regions of the 20-membered tocin ring and at the tripeptide tail end. Based on this comparison and analysis of restrained molecular dynamics trajectories, we found that, although the turns are stabilized by the formation of hydrogen bonds, the oxytocin molecule possesses a slight twist in DMSO solution relative to the orientation of deamino-oxytocin in the crystalline state. Analyses of oxytocin conformation indicate that the tripeptide tail is more flexible than the tocin ring.
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PMID:Conformational properties of oxytocin in dimethyl sulfoxide solution: NMR and restrained molecular dynamics studies. 147 46

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

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

Dimethyl sulfoxide (DMSO) is a dipolar organic compound commonly used as a solvent in studies of membrane transport. DMSO also has many effects on cell function and, although the precise mechanism of action is not known completely, it has been stated to exert its effect on transport solely through osmolality. The present study was designed to examine the effects of serosal DMSO at three osmolar concentrations on Basal Water Flow and vasopressin (AVP)- and cyclic AMP-stimulated water flow (Maximal Water Flow) in the toad bladder. The results obtained were compared to equi-osmolar concentrations of mannitol and NaCl. All three agents significantly enhanced Basal Water Flow after 60 min. The results obtained on Maximal Water Flow were different depending on the final osmolality. At 300 mOsm final concentration, all three agents increased AVP-stimulated water flow. When the serosal osmolality was 600 or 900 mOsm DMSO increased Maximal Water Flow, whereas mannitol and NaCl decreased it. When 300 mOsm DMSO plus 300 mOsm mannitol (600 mOsm total)-treated hemibladders were challenged with AVP, the water flow response was similar to that of 600 mOsm DMSO alone. In the presence of verapamil, AVP-stimulated water flow was decreased markedly; when DMSO was added to verapamil-pretreated hemibladders, and they were then challenged with AVP, water flow increased significantly. In similar experiments with mannitol, water flow remained inhibited. Dimethylsulfone did not enhance AVP-stimulated water flow as compared to the same concentration of DMSO. These results demonstrate that the effects of DMSO on water transport are not mediated solely by its osmolar action.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dimethyl sulfoxide affects water flow through a nonosmolar action. 249 76

The induction of the hydroosmotic response in the toad urinary bladder is considered to be associated with membrane addition mediated by exocytosis at the affected luminal membrane and reversed by endocytic retrieval at that surface. The permeability, exocytosis and endocytosis are initiated by antidiuretic hormone (ADH) receptor interaction on the basolateral membrane. In other hormone responsive systems, phorbol ester (phorbol myristate acetate, PMA), a tumor promoter, has been implicated in the regulation of various transport processes through the activation of protein kinase C and cytoskeletal protein phosphorylation. We found that addition of 10(-6) M PMA to the mucosa induces an hydroosmotic response which is gradual and which reaches a maximum within 60 min, equal to about 1/3 the maximal ADH response. Morphologically, PMA causes rapid exocytosis of the granules, endocytosis of horseradish peroxidase from the mucosal medium into tubules and multivesicular bodies and elongation of apical microvilli. Controls treated with mucosal 0.1% dimethylsulfoxide (DMSO) or an inactive PMA isomer on the mucosal surface, or PMA on the serosal surface lack the hydroosmotic, exocytic, endocytic and cytoskeletal changes. Addition of serosal ADH to PMA-treated bladders results in a precocious hydroosmotic and exocytic ADH response, but a lowering of the maximal response. Also pretreatment of bladders with PMA prevented the ADH-induced increase in transepithelial potential difference. Thus, apical events mediating the PMA hydroosmotic response are correlated with exo- and endocytosis and elongation of apical microvilli.
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PMID:Phorbol myristate acetate induces endocytosis as well as exocytosis and hydroosmosis in toad urinary bladder. 393 62

Recently, we presented evidence for the localization of components of the cellular Ca2+ signaling pathway in microvilli. On stimulation of this pathway, microvilli undergo characteristic morphological changes which can be detected by scanning electron microscopy (SEM) of the cell surface. Here we show that both receptor-mediated (vasopressin) and unspecific stimulation of the Ca2+ signaling system by the lipophilic tumor promoters thapsigargin (TG) and phorbolmyristateacetate (PMA) are accompanied by the same type of morphological changes of the cell surface. Since stimulated cell proliferation accelerates tumor development and sustained elevation of the intracellular Ca2+ concentrations is a precondition for stimulated cell proliferation, activated Ca2+ signaling is one possible mechanism of non-genomic tumor promotion. Using isolated rat hepatocytes we show that all tested lipophilic chemicals with known tumor promoter action, caused characteristic microvillar shape changes. On the other hand, lipophilic solvents that were used as differentiating agents in cell cultures such as dimethylsulfoxide (DMSO) and dimethylformamide also, failed to change the microvillar shapes. Instead DMSO stabilized the original appearance of microvilli. The used technique provides a convenient method for the evaluation of non-genomic carcinogenicity of chemicals prior to their industrial application.
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PMID:A new concept for risk assessment of the hazards of non-genotoxic chemicals--electronmicroscopic studies of the cell surface. Evidence for the action of lipophilic chemicals on the Ca2+ signaling system. 920 Aug 66

High throughput fluorescence polarization (FP) assays are described that offer a nonradioactive, homogeneous, and low-cost alternative to radioligand binding assays for cell surface receptors (G protein-coupled receptors and ligand-gated ion channels). FP assays were shown to work across a range of both peptide (vasopressin V1a and delta-opioid) and nonpeptide (beta1-adrenoceptor, 5-hydroxytryptamine3) receptors. Structure-activity relationships were investigated at beta1-receptors and were found to be consistent with radioligand binding assays. FP was shown to tolerate up to 5% DMSO with no loss in sensitivity or signal window. From a random set of 1,280 compounds, 1.9% were found to significantly interfere with FP measurement. If fluorescent or quenching compounds were eliminated (3% of all compounds), less than 0.4% of compounds were found to interfere with FP measurement. Assays could be run in 384-well plates with little loss of signal window or sensitivity compared to 96-well plate assays. New advances in FP measurement have therefore enabled FP to offer a high throughput alternative to radioligand binding for cell surface receptors.
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PMID:High throughput fluorescence polarization: a homogeneous alternative to radioligand binding for cell surface receptors. 1080 5

Depolarizing afterpotentials (DAPs) that follow action potentials in magnocellular neurosecretory cells (MNCs) are thought to underlie the generation of phasic firing, a pattern that optimizes vasopressin release from the neurohypophysis. Previous work has suggested that the DAP may result from the Ca(2+)-dependent reduction of a resting K(+) conductance. Here we examined the effects of flufenamic acid (FFA), a blocker of Ca(2+)-dependent non-selective cation (CAN) channels, on DAPs and phasic firing using intracellular recordings from supraoptic MNCs in superfused explants of rat hypothalamus. Application of FFA, but not solvent (0.1 % DMSO), reversibly inhibited (IC(50) = 13.8 microM; R = 0.97) DAPs and phasic firing with a similar time course, but had no significant effects (P > 0.05) on membrane potential, spike threshold and input resistance, nor on the frequency and amplitude of spontaneous synaptic potentials. Moreover, FFA did not affect (P > 0.05) the amplitude, duration, undershoot, or frequency-dependent broadening of action potentials elicited during the spike trains used to evoke DAPs. These findings suggest that FFA inhibits the DAP by directly blocking the channels responsible for its production, rather than by interfering with Ca(2+) influx. They also support a role for DAPs in the generation of phasic firing in MNCs. Finally, the absence of a depolarization and increased membrane resistance upon application of FFA suggests that the DAP in MNCs may not be due to the inhibition of resting K(+) current, but to the activation of CAN channels.
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PMID:Flufenamic acid blocks depolarizing afterpotentials and phasic firing in rat supraoptic neurones. 1245 32

Our objective was to test the hypothesis that the cGMP signal-transduction mechanism mediates nitric oxide's (NO) modulation of oxytocin (OT) and vasopressin (VP) secretion from the hypothalamo-neurohypophysial system. Three studies were conducted in adult male Sprague-Dawley rats: (1a) Euhydrated rats received an intracerebroventricular (icv) infusion (1 microl/min for 30 min) of artificial cerebrospinal fluid (aCSF), vehicle (2.6% dimethyl sulfoxide [DMSO]) or 1H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one (ODQ) (0.05 microg/microl), an inhibitor of soluble guanylyl cyclase (sGC). ODQ did not affect basal levels of plasma VP or OT; (1b) Rats dehydrated for 24 h received aCSF or 8-Br-cGMP (icv), a membrane-permeable analog of cGMP, and plasma hormones were measured 2 min later. 8-Br-cGMP did not significantly change VP or OT levels; (2) Rats ingested water or 2% NaCl for 4 days, and NO synthase (NOS) and sGC activities were measured in posterior pituitaries, the anatomical site of hormone secretion. Salt loading enhanced (P < 0.001) production of [(14)C]citrulline, the coproduct of NO synthesis, without altering cGMP; (3) One SON was microdialyzed with [(14)C]arginine and NOS and sGC activities were quantified in microdialysates during intravenous (iv) infusion of isotonic or hypertonic saline in awake and anesthetized rats. In awake rats, [(14)C]citrulline recovery, but not cGMP, increased (P < 0.05) during intravenous infusion of both isotonic and hypertonic solutions, and after insertion of microdialysis probe itself. In anesthetized rats, however, where basal NOS activity is low, intravenous infusion of hypertonic, but not isotonic solution, increased [(14)C]citrulline recovery without affecting cGMP. Thus, in the forebrain, neither NO produced basally nor during osmotic stimulation depends on cGMP to modulate plasma vasopressin and oxytocin secretion.
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PMID:NO inhibition of the magnocellular neuroendocrine system in rats is independent of cGMP signaling pathway. 1476 77


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