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)

Effects of pentagastrin, histamine, PGI2, and vasopressin on gastric mucosal blood flow (GMBF) in innervated stomaches of anesthetized dogs were measured by means of the hydrogen clearance method, using a contact electrode. The results were compared with findings obtained with the aminopyrine (AP) clearance method in Heidenhain pouch preparations. Pentagastrin at 2 and 8 micrograms/kg/hr had no effects on GMBF, as measured by the hydrogen clearance method, but there was a marked increase in GMBF when the AP clearance method was used. Histamine at 40 or 160 micrograms/kg/hr tended to reduce or significantly reduced GMBF when measured with the hydrogen clearance method, but there was a significant increase in GMBF with the AP clearance method. Both PGI2 (3 or 30 micrograms/kg/hr) and vasopressin (0.06 or 0.25 units/kg/hr) reduced GMBF as determined by both methods. These results indicate that the hydrogen clearance method is advantageous for detecting regional GMBF but is disadvantageous when attempting to detect the effects of agents which increase GMBF.
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PMID:Comparative study of hydrogen and aminopyrine clearance methods for determination of gastric mucosal blood flow in dogs. 638 Oct 1

Activation energies (Ea) for water movement across vasopressin-(ADH) sensitive epithelia have been reported to be about 10 kcal/mol (1, 12). The present study shows that measurements of Ea for osmotic water flow across toad bladders are unreliable, because a temperature change induces marked alterations in membrane permeability to water within a 2.5-min interval. Thus bladders equilibrated with ADH either at room temperature or at 33 degrees C and then suddenly subjected to a lower temperature were found to exhibit a marked increase in membrane permeability to water. This observation suggests that there is a rapid turn-over of water permeability sites and that sudden exposure to cold inhibits the removal more than the induction of sites by ADH. To stabilize ADH-induced water channels for Ea measurements, bladders were exposed to ADH at room temperature, fixed with glutaraldehyde, and subjected to osmotic gradients at different temperatures. The Ea values for osmotic water flow across these ADH-permeabilized, glutaraldehyde-fixed bladders were 5.1 (4-12 degrees C), 4.3 (12-21 degrees C), 3.6 (21-36 degrees C), and 3.6 kcal/mol (30-38 degrees C). Ea values for shear viscosity of water in these temperature ranges were calculated to be 4.7, 4.2, 4.1, and 3.6 kcal/mol, respectively. The close correlation between Ea values for bulk water viscosity and osmotic water flow across the bladder wall suggests that an equivalent number of hydrogen bonds must be broken to achieve an increase in water flow through ADH-induced channels and an increase in fluidity of water in bulk solution.
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PMID:Activation energy for water transport in toad bladder. 640 2

Rats maintained on 23-hr water deprivation were first trained to bar-press for continuous water reinforcement and then to discriminate between regularly alternating periods (24 sec) during which time a light signal was either on and each response was reinforced or the light was off and bar-presses were not rewarded. The following drugs were injected s. c. prior to the sessions of discriminative learning: piracetam, 1-(4-Methyl-piperazinocarbonylmethyl)-2-pyrrolidone/hydrogen maleate (VUFB 13763), N alpha-glycyl-glycyl[8-lysine]des-9-glycinamide-vasopressin (DG-Trigly-LVP) and an analog of MIF, EUC-Leu-beta-Ala-NH2 (EUC, 2-oxoimidazolidine-1-carboxylic acid). None of the drugs influenced the total number of bar-pressing (sum of reinforced and non reinforced responses). Piracetam (100 mg.kg-1), VUFB 13763 (40 mg.kg-1) and EUC-Leu-beta-Ala-NH2 (1 mg.kg-1) improved the performance of rats on the discrimination learning task, DG-Trigly-LVP slowed the rate of acquisition.
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PMID:Bar-pressing for water reward: effects of nootropic drugs and peptides on discrimination learning in rats. 647 74

In hepatocytes isolated from fasted rats, vasopressin and angiotensin II stimulate the rate of gluconeogenesis from lactate or pyruvate in a Ca2+-dependent manner similar to that previously reported for norepinephrine. Actions of the peptide hormones on gluconeogenesis from glycerol or sorbitol, reduced substrates that require oxidation before they enter the gluconeogenic pathway at triosephosphate, also resemble those of norepinephrine. Stimulation of glucose production from these substrates is observed only in the presence of extracellular Ca2+. Actions of the peptide hormones on gluconeogenesis from dihydroxyacetone or fructose, the oxidized counterparts of glycerol and sorbitol, respectively, do not resemble those of norepinephrine. While norepinephrine enhances rates of glucose production from dihydroxyacetone or fructose in the absence of extracellular Ca2+, vasopressin and angiotensin II are ineffective either in the absence or presence of extracellular Ca2+. When the oxidation-reduction state in hepatocytes metabolizing dihydroxyacetone is altered by adding an equimolar concentration of ethanol (to provide cytosolic reducing equivalents), the results are similar to those obtained when cells are incubated with the reduced counterpart of dihydroxyacetone, glycerol, i.e., the peptide hormones cause an apparent increase in the rate of glucose production in a Ca2+-dependent manner. If, on the other hand, hepatocytes are incubated with glycerol or sorbitol and an equimolar concentration of pyruvate (to provide a cytosolic hydrogen acceptor), the peptide hormones, unlike norepinephrine, are ineffective in stimulating gluconeogenesis in the absence of extracellular Ca2+. These results indicate that whereas many of the actions of vasopressin and angiotensin II are similar to those of alpha 1-adrenergic agents, there are major differences in the manner in which the hormones act at various sites to regulate gluconeogenesis.
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PMID:Regulation of gluconeogenesis by norepinephrine, vasopressin, and angiotensin II: a comparative study in the absence and presence of extracellular Ca2+1. 661 18

Hydrogen gas clearance using 3% hydrogen in air and platinum contact electrodes was employed for measuring antral and corpus mucosal blood flow in anesthetized animals. Significantly greater antral than corpus mucosal blood flow was consistently demonstrated. Corpus but not antral mucosal blood flow showed a significant dose-related increase with intravenous pentagastrin. Vasopressin induced a significant dose-related decrease in both antral and corpus mucosal blood flow. Simultaneous measurement of basal corpus mucosal blood flow by hydrogen gas clearance and of gastric mucosal blood flow by aminopyrine clearance gave similar values, but the changes with intravenous pentagastrin or vasopressin measured by aminopyrine clearance were of a much higher order of magnitude. Hydrogen gas clearance, however, reflected changes in left gastric artery blood flow much more closely than did aminopyrine clearance. Therefore, we conclude that the hydrogen gas clearance technique as described is valid for measuring regional gastric mucosal blood flow. It is safe and has potential application in human studies.
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PMID:Regional gastric mucosal blood flow measurements by hydrogen gas clearance in the anesthetized rat and rabbit. 672 74

We have employed a variety of urea and thiourea analogues to elucidate further the vasopressin-stimulated urea transport mechanism. In the urea series there was a progressive inhibition of tracer urea transport as cylindrical radius of analogue increased from 2.9 to 3.5 A. Above 3.8 A no inhibition was found. Thiourea analogues were more potent inhibitors for comparable cylindrical radii, and compounds greater than 3.8 A again were not inhibitory. Inhibition was comparable when the inhibitor was moving in the same or opposite directions. Urea transport and its inhibition were preserved in bladders fixed with glutaraldehyde. Osmotic water flow, tritiated water flow, and uric acid transport were not affected by any analogues tested. Analogues of urea and thiourea affected the transport of labeled methylurea and thiourea in a manner similar to their effect on urea. We therefore propose that the urea transport mechanism is a channel with a cylindrical radius between 3.5 and 3.8 A that is capable of interaction with the moving species by hydrogen bonding. This model can account for the selectivity of the vasopressin-stimulated urea transport, its inhibition by urea and thiourea analogues, the facilitated transport of urea, inhibition of tracer urea flux from either the cis or the trans position, and finally the preservation of the urea transport machinery following glutaraldehyde fixation.
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PMID:Importance of molecular size and hydrogen bonding in vasopressin-stimulated urea transport. 680 2

In the proposed biologically active conformation of vasopressin at the antidiuretic receptor, the side-chain carboxamide group of the 5-position asparaginyl residue has been previously suggested to be the key active element in the hormone for its initiation of the antidiuretic response. [5-(N4,N4-Dimethylasparagine),8-lysine]vasopressin, the analogue in which the hydrogen atoms of the -NH2 portion of the primary carboxamide have been replaced by methyl groups, has been synthesized and found to retain about 3% of the antidiuretic potency of lysine-vasopressin (i.e., 5.5 +/- 0.3 units/mg). This result suggests that the hydrogen atoms of the carboxamide moiety are not essential for antidiuretic activity. In addition, the analogue possesses rat pressor, avian vasodepressor, and rat uterotonic potencies of 2.55 +/- 0.05, 0.39 +/- 0.03, and less than 0.05 units/mg, respectively.
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PMID:[5-(N4,N4-Dimethylasparagine),8-lysine]vasopressin: the first 5-position neurohypophyseal hormone analogue to retain to retain significant antidiuretic potency. 735 38

1. The effects of hyponatraemia on cerebral blood flow, oxidative metabolism, and transfer of Na and K from the brain--c.s.f. compartment to blood have been examined in anaesthetized calves 2--6 weeks after birth. 2. Dilutional hyponatraemia was produced by administration of a long-acting antidiuretic hormone analogue (desmopressin) and the infusion of hexose solutions of various concentrations. Cerebral blood flow was measured using a hydrogen clearance technique, and metabolism and cation transfer quantified by simultaneous determination of arterio-cerebral venous concentration differences. 3. Sustained hyposmolar hyponatraemia (plasma osmolality, 232 +/- 1 m-osmole/kg; plasma Na, 117 . 1 +/- 0 . 5 m-mole/l.) was associated with a fall in cerebral blood flow, and increase in measured net transfer of K from the brain-c.s.f. compartment to the circulation. C.s.f. Na concentration and osmolality were both decreased. 4. No alterations in these variables occurred during sustained isosmolar hyponatraemia (plasma osmolality, 284 +/- 2 m-osmole/kg; plasma Na, 119 . 9 +/- 0 . 2 m-mole/l). 5. The results are discussed in relation to the route, mechanism and time course of K loss from brain during hyponatraemia.
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PMID:Potassium transfer from brain to blood during sustained hyponatraemia in the calf. 746 70

Although recent clinical reports suggest that greater than normal amounts of dihydroxy secondary bile acids appear in the gastric content of patients with postoperative alkaline reflux gastritis, the pathophysiologic significance of these observations is unclear. We addressed this problem by usiong chambered ex vivo wedges of proximal canine gastric wall. The effects of 1 and 2 mM concentrations of the dihydroxy secondary bile acid, taurodeoxycholic, were compared with those of its parent trihydroxy primary bile acid, taurocholic. The parameters of mucosal function evaluated included the net flux of hydrogen ion, the transmural electrical potential difference, mucosal blood flow determined by radiolabeled microsphere embolization, and the severity of mucosal damage induced in mucosa rendered ischemic by wedge-specific intra-arterial low-dose vasopressin infusin. The results indicate that at each concentration in both ischemic and nonischemic mucosa the dihydroxy secondary bile acid induced a greater depression in potential difference, a more profound increase in mucosal permeability to hydrogen ion, and in ischemic mucosa a more severe degree of gross mucosal damage than did the trihydroxy primary bile acid. These effects may be related to a greater lipid solubility and consequent capacity to disrupt cell membranes.
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PMID:Differing ulcerogenic potential of dihydroxy and trihydroxy bile acids in canine gastric mucosa. 746 24

1. Acid back-diffusion through a disrupted gastric mucosal barrier increases blood flow to the stomach without any change in systemic blood pressure. This study was undertaken to examine the gastric acid-evoked changes in blood flow in a number of visceral and somatic arterial beds and to elucidate the mechanisms which lead to the regionally diverse haemodynamic responses. 2. The gastric mucosa of urethane-anaesthetized rats was challenged with acid by perfusing the stomach with ethanol (15%, to disrupt the gastric mucosal barrier) in 0.15 M HCl. Blood flow was estimated by laser Doppler flowmetry, the hydrogen clearance method or the ultrasonic transit time shift technique. 3. Gastric acid challenge increased blood flow in the gastric mucosa and left gastric artery while blood flow in the femoral artery and skin declined. 4. Afferent nerve stimulation by intragastric administration of capsaicin enhanced blood flow in the left gastric artery but did not diminish blood flow in the femoral artery when compared with the vehicle. 5. The gastric acid-evoked dilatation of the left gastric artery was depressed by acute extrinsic denervation of the stomach, capsaicin-induced ablation of afferent neurones or hexamethonium-induced blockade of autonomic ganglionic transmission. 6. The gastric acid-induced constriction of the femoral artery was attenuated by acute extrinsic denervation of the stomach but left unaltered by capsaicin, hexamethonium, guanethidine, indomethacin, telmisartan (an angiotensin II antagonist), [d(CH2)5(1), Tyr(Me)2, Arg8]-vasopressin (a vasopressin antagonist), bosentan (an endothelin antagonist) and acute ligation of the blood vessels to the adrenal glands. 7. These data show that acid challenge of the gastric mucosa elicits visceral vasodilatation and somatic vasoconstriction via divergent mechanisms. The gastric hyperaemia is brought about by extrinsic vasodilator nerves, whereas the reduction of somatic blood flow seems to be mediated by non-neural, probably humoral, vasoconstrictor messengers that remain to be identified.
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PMID:Visceral vasodilatation and somatic vasoconstriction evoked by acid challenge of the rat gastric mucosa: diversity of mechanisms. 747 14


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