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)

Lithium (Li+) chloride, 2 to 3 mEq. per kilogram of body weight, was administered intraperitoneally to normal Wistar rats daily for 4 to 66 days. This resulted in a marked reduction in urine osmolality (Uosm.) and increase in the excretion of water, Na+, K+, uric acid, and phosphate. The excretion of uric acid and potassium was a direct function of UNaV. The magnitude of depression in urine osmolality was significantly related to the rate of excretion of lithium in the urine, suggesting that the change in water reabsorption is dependent on the presence of the ion in the luminal side of the tubule. During 2 per cent saline diuresis, Li+-treated rats achieved less fractional free water reabsorption (TcH2O/GFR times 100) at any level of fractional osmolar clearance (Cosm./GFR times 100) than normal rats. On the other hand, during 0.225 per cent saline diuresis, fractional free water clearance (CH2O/GFR times 100) was normal over a wide range of fractional urine flow (V/GFR times 100), indicating intact function of the ascending limb of the loop of Henle. The intravenous infusion of vasopressin (VP) or dibutyryl cyclic-adenosine monophosphate (dcAMP) to Li+-treated rats resulted in a modest rise in Uosm. and a reduction in V/GFR times 100 and CH2O/GFR times 100. Although the response to VP appeared earlier than that to dibutyryl cyclic-AMP, the magnitude of the changes in Uosm., V/GFR times 100, and CH2O/GFR times 100 was eventually the same with both substances. Comparison between normal and Li+-treated rats revealed that the response to both VP and dibutyryl cyclic-AMP was blunted, albeit to a greater extent in the former. Inhibition by Li+ of adenylate cyclase will only partially explain the present data. Impairment in the release of endogenous VP or a block distal to the formation of cyclic-AMP must have played a role. In view of a normal diluting capacity and the increase in the excretion of phosphate and uric acid, it is suggested that Li+, when administered chronically in the present doses, inhibits proximal tubular reabsorption.
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PMID:Renal effects of lithium administration in rats: alterations in water and electrolyte metabolism and the response to vasopressin and cyclic-adenosine monophosphate during prolonged administration. 16 79

Pituitary hormones profoundly influence behavior through direct actions on the brain. One of these behavioral effects is the attenuation of experimental amnesia. Traditionally, amnesia is considered as a "loss of memory." Memory comprises at least 2 stages: input (memory consolidation) and output (memory retrieval). Theoretically, disturbance of either aspect of memory may be the cause of amnesia. Also, it is possible that amnesia is based on a factor or factors not related to memory. Data and theories on amnesia in man were reviewed. Some salient features were mentioned: (1) amnesia can be induced by a variety of agents; (2) amnesia covers periods ranging from seconds to years; (3) amnesia gradients can be established; (4) amnesia is to a large extent reversible. From this survey, it seems possible that amnesia is not a homogeneous phenomenon and that even in one person a disturbance of both memory consolidation and memory retrieval may be produced by one and the same event. Animal studies in general have confirmed these conclusions. We have developed an animal model in order to study the effects of pituitary peptides on amnesia. This model is based on CO2-induced amnesia for a one-trial passive avoidance response in rats. This amnesia could be attenuated by treatment with ACTH-analogs 1 hour before the retrieval test. This anti-amnesic effect of ACTH-analogs was not dependent on the nature of the behavioral response or the amnesic treatment. The vasopressin-analog DGLVP similarly exerted an anti-amnesic effect when injected before the retrieval trial. In contrast to ACTH-analogs, however, it also reduced the amnesia when injected before acquisition. These results suggest that amnesia may comprise a "faulty-consolidation" and a "faulty-retrieval" component, which may be amended by different pituitary hormones. The study of the anti-amnesic activity of peptides therefore not only serves to characterize the nature of the behavioral effect of these peptides but may also prove to be helpful of the unraveling of processes involved in amnesia.
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PMID:Pituitary hormones and amnesia. 21 89

1. Propionate and other unbranched short-chain fatty acids, butyrate, pentanoate, hexanoate and octanoate were found to both stimulate and inhibit active sodium transport by the toad bladder, as measured by the short-circuit current (s.c.c.). 2. Stimulation alone followed addition of low concentrations of fatty acids (0.1-1.0 mM) to either the serosal or mucosal bathing medium; stimulation was also seen after an initial period of inhibition in response to higher concentrations (approx. 5 mM) of some compounds. 3. Inhibition alone followed addition of high concentrations (5-20 mM) of these compounds. The duration and magnitude of the inhibition varied with increasing concentration and chain length of the fatty acid, and was greater following mucosal addition than serosal addition. 4. The inhibitory effect of mucosal propionate increased with decreasing pH of the mucosal bathing medium. 5. Inhibition by the fatty acids was completely reversed upon removing the compound from the bathing medium, and stimulation characteristically followed. 6. In studies designed to evaluate the role of metabolism of the fatty acids in their mucosal inhibitory effects it was found that 14-c-labelled propionate, when added to the mucosal surface of the bladder, was converted to 14-CO2, and mucosal succinate and alpha-oxoglutaric acid at 20 mM inhibited the s.c.c. slightly. However, malonate did not interfere with inhibition by mucosal propionate and two non-metabolizable acids, dimethylpropionate and benzoate, induced inhibition (and no stimulation) of the s.c.c. 7. In the presence of an inhibitory concentration of fatty acid, the ability of the bladder to respond to added pyruvate was reduced in proportion to the reduction in the level of the s.c.c., whereas the natriferic response to vasopressin was largely intact. 8. We conclude that stimulation of sodium transport by propionate and other short-chain fatty acids is due to metabolism of the compounds and provision of energy to the sodium transport mechanism. The basis of the inhibition appears complex. It may in part depend on metabolism of the fatty acids and/or uncoupling of oxidative phosphorylation, with resultant reduction in net ATP production for the sodium transport mechanism. However, the inhibition may also be caused in part by a direct effect on the mucosal entry of sodium into the transporting epithelial cells.
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PMID:On the effects of propionate and other short-chain fatty acids on sodium transport by the toad bladder. 23 89

The authors determined cardiovascular, renal, and hormonal responses to increased airway pressure during continuous positive-pressure ventilation (CPPV) and continuous positive airway pressure (CPAP). Nine healthy, hydrated laboratory swine had appropriate catheters placed to allow for measurement of intrapleural, aortic, inferior vena caval, and left ventricular end-diastolic pressures; cardiac output; and urinary flow. Samples of arterial blood were analyzed for oxygen and carbon dioxide tensions, pH, plasma vasopressin, osmolality, and creatinine and sodium concentrations. Urine was analyzed for osmolality and creatinine and sodium concentrations, and volume was recorded. Intrapleural pressure was subtracted from left ventricular end-diastolic pressure to calculate transmural pressure, a reflection of left ventricular filling pressure. Glomerular filtration rate and urinary free-water and osmolal clearances were also calculated. Expiratory left ventricular filling pressure was decreased equally by CPAP and CPPV. However, inspiratory left ventricular filling pressure and cardiac output were decreased by CPPV only. Urinary flow and glomerular filtration rate were decreased equally by CPAP and CPPV. Sodium excretion was decreased and plasma vasopressin increased by CPPV, but not by CPAP. Urinary free water and osmolal clearances were not changed by either ventilatory pattern. Although many of the renal-function variables were affected similarly by CPPV and CPAP, these alterations were not influenced solely by cardiac output or vasopressin, because only CPPV depressed cardiac output and increased vasopressin levels.
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PMID:Renal function and cardiovascular responses during positive airway pressure. 37 28

Active sodium transport and CO2 production were measured simultaneously in toad bladders mounted in membrane chambers. The rate of sodium transport was varied by changing the concentration of sodium in the mucosal bath (substitution with choline), by adding vasopressin, by adding metabolic substrates and by adding malonate, and the ratio of the change of sodium transport and CO2 production was determined Mean values for deltaNa/deltaCO2 (equiv/mole) were: Na in equilibrium choline 18.3 +/- 1.1; vasopressin 15.5 +/- 2.8; and pyruvate (corrected for the increment in "nontransport" CO2) 15.4 +/- 3.5. Based on previously determined values for the respiratory quotient (R.Q.), calculated mean values for deltaNa/deltaO2 ranged between 15.5 and 18.5 equiv/mole. It appears that basal metabolism does not contribute to metabolism supporting sodium transport when the rate of sodium transport is varied. "Transport" metabolism appears much more responsive to changes in the availability of endogenous and exogenous substrates than does "nontransport" metabolism. We conclude that "transport" and "nontransport" metabolism are functionally separated in the toad bladder.
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PMID:Interrelationships of sodium transport and carbon dioxide production by the toad bladder: response to changes in mucosal sodium concentration, to vasopressin and to availability of metabolic substrate. 40 60

Vasopressin-induced glucose release from the perfused livers of fed rats is diminished in the presence of insulin or following adrenal ablation. The reduced rate of glucose release following vasopressin treatment in the perfused livers of adrenalectomized rats was restored towards the control value by cortisol treatment in vivo. Vasopressin did not influence the total rate of fatty acid synthesis in the livers of fed rats perfused with medium containing glucose and two concentrations of lactate. The contribution of these precursors to hepatic fatty acid synthesis and CO2 production was similarly uninfluenced by vasopressin. Vasopressin casued a transient increase in the release of K+ by the perfused liver which was observed within 2 min of hormone administration. These results are discussed in relation to the possible mode of action of vasopressin in the liver.
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PMID:The control by vasopressin of carbohydrate and lipid metabolism in the perfused rat liver. 42 22

The effects of vasopressin administered by continuous infusion (0.75 and 0.5 mU/m2/minutes) was studied in two groups of three normal and two groups of 5 and 8 malnourished children given 0.5 and 0.3 mU/m2/minute. The following parameters were analyzed: urine volume, osmolality, water reabsorption, PAH, urea and inulin clearances, Na and K urinary excretion. Malnourished children had a urine volume 3 to 5 times higher than the normal groups. Vasopressin increased urine volume initially, but a mild antidiuretic effect followed in the normal groups. In malnourished children with a high CH2O, antidiuresis showed quite important figures with vasopressin. A transient fall in PAH and inulin clearances was observed with vasopressin in both malnourished groups with a mild drop in the normal group. Natriuresis with a higher % of the filtered sodium excretion was observed in the malnourished groups and in normal children with 0.5 mU of vasopressin. These results show that vasopressin had similar effects, but at a different level in the normal and malnourished children that we studied.
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PMID:[Renal function in normal and malnourished children given different doses of vasopressin in continuous infusion]. 46 71

Experiments have been performed to examine the effects of activating the carotid body chemoreceptors and the arterial baroreceptors on the discharge of neurones within the hypothalamic supraoptic nucleus of the rat. Chemoreceptors were activated by intracarotid injection of 0.9% NaCl solution equilibrated with 100% CO2. The baroreceptors of the carotid sinus and aortic arch were activated by raising the blood pressure with an intravenous injection of phenylephrine. Chemoreceptor stimulation activated and baroreceptor stimulation inhibited the discharge of all the phasically discharging neurones tested. Neither stimulus had any consistent effect on non-phasically discharging neurones, although slight inhibition occasionally occurred. Anaesthesia of the carotid bifurcation abolished the effects of cardiovascular stimulation on the supraoptic neurones. Responses resumed when the anaesthesia wore off. However, the anaesthesia also seemed to alter the phasic pattern of discharge. The results are discussed with reference to the influence of the cardiovascular receptors upon the neurones in the supraoptic nucleus, and with reference to possible roles for the cardiovascular reflexes in control of vasopressin secretion.
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PMID:Effects of chemoreceptor and baroreceptor stimulation on the discharge of hypothalamic supraoptic neurones in rats. 47 26

Application of a foot shock during the acquisition trial of a one-trial passive avoidance task is associated with a rise in the concentration of serotonin in the hippocampus 24 h after conclusion of the acquisition trial. Carbon dioxide (CO2) induces amnesia for the passive avoidance response when administered immediately upon termination of the acquisition trial. In rats subjected to CO2 treatment following foot shock the rise in hippocampal serotonin is not observed 24 h later. The vasopressin analogue desglycinamide lysine vasopressin attenuates CO2-induced amnesia for the passive avoidance response when given prior to either the acquisition or the retrieval test (24 h after acquisition). This attenuation of the passive avoidance response is associated with a rise in the hippocampal serotonin concentration similar to the one observed in non-amnesic animals. It is suggested that a correlation exists between changes in hippocampal serotonin metabolism and the retrievability of the passive avoidance response.
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PMID:Parallel changes in behaviour and hippocampal serotonin metabolism in rats following treatment with desglycinamide lysine vasopressin. 55 78

The effects of acute increases of intracranial pressure (ICP) on renal function before and during enflurane and enflurane-N2O anesthesia were determined in 12 mongrel dogs. Prior to anesthesia, acute elevations of 10 and 20 torr in ICP significantly increased urine osmolarity (Uosm), mean arterial blood pressure (MAP), and renal vascular resistance (RVR); significantly decreased urine volume (U vol), para-aminohippurate clearance (Cpah), and free water clearance (C/20); and had no effect on inuline clearance (Cin) or plasma levels of antidiuretic hormone (ADH). Thirty minutes of enflurane (2.2 percent end-tidal concentration) in 70 percent nitrogen and O2 in the presence of normal ICP caused significant increases in Uosm while MAP, CPAH, UVOL CH20, CIN, and osmolar clearance (CosM) were significantly decreased and ADH was unchanged. Substituting 70 percent N2O for nitrogen had no significant effect on any variable measured. Increasing ICP 10 torr during enflurane-N-2O anesthesia caused significant increases (compared to enflurane-N2O values in the presence of normal ICP) in UosM, RVR, and CosM, as well as significant decreases in UVOL, CH2O, AND CPAH, but had no effect on ADH, CIN, or MAP. Enflurane and N2O anesthesia moderates the elevation MAP in response to an acute increase in ICP but fails to alter the renal response to increased ICP.
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PMID:Failure of enflurane in altering renal responses to acute intracranial pressure increases. 56 58

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