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)

It has been shown that endothelin-1 (ET-1) binding sites exist in the central nervous system and that the injection of intracerebroventricular ET-1 induces a pressor response. Therefore, we determined the neurohormonal and cardiovascular responses to intracerebroventricular ET-1 (25 pmol/kg) in conscious rabbits with chronically instrumented electrodes on the renal sympathetic nerve. Intracerebroventricular ET-1 provoked a prompt increase in arterial pressure and in renal sympathetic nerve activity within 5 minutes, and peak values were obtained at 20 and 40 minutes, respectively. Plasma epinephrine and norepinephrine reached peak values at 5-20 minutes. Plasma vasopressin and plasma glucose levels also increased significantly, but plasma osmolality, hematocrit, and serum sodium and potassium concentrations did not show any changes. Arterial blood gas analysis showed respiratory alkalosis. However, pretreatment with intravenous pentolinium (5 mg/kg), a ganglion blocking agent, abolished these neurohormonal and cardiovascular responses. Conversely, the same dose of intravenous ET-1 (25 pmol/kg) as that used in the intracerebroventricular experiment failed to cause any cardiovascular or renal sympathetic nerve responses. These results suggest that intracerebroventricular ET-1 acts in the central nervous system and causes a pressor response mainly through the enhancement of sympathoadrenal outflow.
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PMID:Central effect of endothelin on neurohormonal responses in conscious rabbits. 204 64

Infection of rats with the liver fluke, Fasciola hepatica, impaired the responses of the perfused liver to calcium uptake and glucose release induced by the synergistic action of glucagon and vasopressin. Treatment of infected rats with dexamethasone prevented the impairment of each of these two responses.
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PMID:Beneficial effect of dexamethasone on attenuated hormone-induced uptake of calcium and glycogenolysis by perfused liver of rats infected with Fasciola hepatica. 206 86

Administration of vasopressin and glucagon evokes a transient release of Ca2+ from perfused livers. The Ca2+ is released from a pool that is depletable by the mitochondrial uncoupler carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP). Therefore, the mechanism of the FCCP-stimulated Ca2+ release was examined. The FCCP-stimulated Ca2+ release was associated with a decrease in ATP levels. In the presence of oligomycin, which blocked the FCCP-induced rapid ATP breakdown, FCCP did not release Ca2+ though it still stimulated respiration. The possibility that FCCP might indirectly cause a release of Ca2+ by lowering hepatic ATP was examined at two levels of organization: 1) in the whole organ, by perfusing livers with fructose, a compound that was shown previously to drastically lower ATP in the liver, and 2) in isolated microsomal vesicles by depleting ATP with glucose and hexokinase. Fructose evoked Ca2+ release from the perfused liver. Similarly, depletion of ATP by the addition of glucose and hexokinase evoked a rapid release of the accumulated Ca2+ from microsomal vesicles probably by the inhibition of the Ca2(+)-ATPase. These results demonstrate that the major mechanism by which FCCP releases Ca2+ in intact cells is by lowering ATP levels.
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PMID:Hormonal stimulation of Ca2+ release from the perfused liver: effects of uncoupler. 210 59

Fructose 1-phosphate kinase was partially purified from Clostridium difficile and used to develop specific assays of fructose 1-phosphate and fructose. The concentration of fructose 1-phosphate was below the detection limit of the assay (25 pmol/mg protein) in hepatocytes incubated in the presence of glucose as sole carbohydrate. Addition of fructose (0.05-1 mM) caused a concentration-dependent and transient increase in the fructose 1-phosphate content. Glucagon (1 microM) and ethanol (10 mM) caused a severalfold decrease in the concentration of fructose 1-phosphate in cells incubated with fructose, whereas the addition of 0.1 microM vasopressin or 10 mM glycerone, or raising the concentration of glucose from 5 mM to 20 mM had the opposite effect. All these agents caused changes in the concentration of triose phosphates that almost paralleled those of the fructose 1-phosphate concentration. Sorbitol had a similar effect to fructose in causing the formation of fructose 1-phosphate. D-Glyceraldehyde was much less potent in this respect than the ketose and its effect disappeared earlier. The effect of D-glyceraldehyde was reinforced by an increase in the glucose concentration and decreased by glucagon. Both fructose and D-glyceraldehyde stimulated the phosphorylation of glucose as estimated by the release of 3H2O from [2-3H]glucose, but the triose was less potent in this respect than fructose and its effect disappeared earlier. Glucagon and ethanol antagonised the effect of low concentrations of fructose or D-glyceraldehyde on the detritiation of glucose. These results support the proposal that fructose 1-phosphate mediates the effects of fructose, D-glyceraldehyde and sorbitol by relieving the inhibition exerted on glucokinase by a regulatory protein.
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PMID:Fructose 1-phosphate and the regulation of glucokinase activity in isolated hepatocytes. 214 54

The efflux of GSH has been shown previously to be a saturable process in both isolated rat hepatocytes and perfused liver, suggesting a carrier-mediated transport mechanism. The possibility in hormonal regulation of this process has been raised by recent reports. Our present work examined the role of hormones known to affect intracellular signal transduction mechanisms on GSH efflux in cultured rat hepatocytes and perfused rat livers. We found that cAMP-dependent factors, such as cholera toxin (CT), dibutyryl cAMP, forskolin, and glucagon all stimulated GSH efflux in cultured rat hepatocytes. The efflux kinetics were compared in cultured cells incubated with or without CT; the stimulation of GSH efflux was related to a near doubling of the Vmax while exhibiting no significant alteration of the Km. The increase in intracellular cAMP level associated with the threshold for this stimulatory effect was 25% above control. The stimulatory effect of CT could not be blocked by cyclohexamide pretreatment or reversed by colchicine treatment. The stimulatory effect of glucagon was abolished in the presence of ouabain but not in the presence of barium. On the other hand, hormones which act through Ca2+ and protein kinase C, such as phenylephrine and vasopressin, had no effect on GSH efflux in the cultured cells. In the perfused liver model, glucagon (10 nM) and dibutyryl cAMP (8 microM) stimulated sinusoidal GSH efflux to 130 and 144% of control values, respectively, and increased bile flow while not affecting biliary GSH efflux. Finally, the physiological significance of glucagon-mediated stimulation of sinusoidal GSH efflux was assessed by both plasma GSH and glucose levels in response to in vivo glucagon infusion. The threshold dose of glucagon for significant increase in plasma GSH (5.21 pmol/min) was lower than for glucose (15.61 pmol/min). At the highest glucagon infusion rate (261 pmol/min), plasma GSH level doubled while glucose level increased 80%. In conclusion, increased cAMP stimulates GSH efflux in cultured rat hepatocytes and perfused livers. The stimulatory effect of cAMP is exerted at the sinusoidal pole and appears to be mediated by hyperpolarization of hepatocytes by stimulation of Na(+)-K(+)-ATPase. In vivo studies confirmed the importance of cAMP-mediated stimulation of sinusoidal GSH efflux as it resulted in significant elevation of the plasma GSH level.
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PMID:Hormonal regulation of glutathione efflux. 216 79

The prominent protein phosphatases involved in liver glycogen metabolism are the AMD (ATP, Mg-dependent, type-1) and PCS (polycation-stimulated, type-2A) phosphatases. The glycogen synthase phosphatase activity, measured from the rate of activation of liver glycogen synthase, is virtually accounted for by AMD phosphatases; the bulk of the activity belongs to the glycogen-bound protein phosphatase G and a small part is present in the cytosol. The major part of the phosphorylase phosphatase activity present in the post-mitochondrial supernatant is shared by protein phosphatase G and cytosolic enzymes, and a minor part belongs to a microsomal AMD phosphatase. In the liver cytosol, the phosphorylase phosphatase activity is about equally distributed between AMD and PCS phosphatases. Studies in vivo as well as on isolated, perfused livers have shown that glucagon (which raises the level of cyclic AMP) as well as vasopressin (which increases the cytosolic Ca2+ concentration) decrease the phosphorylase phosphatase activity in liver extract or cytosol (filtered through Sephadex G-25) by about 25% within a few minutes. These effects were not additive, and the activity of glycogen synthase phosphatase was not affected. Conversely, insulin as well as glucose increased both phosphatase activities by about 25%, and these effects were additive. Vanadate mimicked the effect of insulin on the perfused liver. All the activity changes were only observed when the assays were performed at high tissue concentration. Upon subcellular fractionation all the effects were well expressed in the cytosol, but not in the particulate fraction (glycogen and microsomes). However, quantitatively the hormonal responses were largely lost during the fractionation procedure; they could be restored by recombination of the liver cytosol from a hormone-treated rat with the particulate fraction from either a treated or an untreated animal. It appears that the effects of glucagon, insulin and glucose are mediated by cytosolic, transferable effectors of the Vmax of protein phosphatases. These effectors are eluted in the void volume of a Sephadex G-25 column. Rats of the gsd/gsd strain, which have a genetic deficiency of hepatic phosphorylase kinase, responded to an injection of insulin plus glucose with a normal increase in the cytosolic phosphorylase phosphatase activity. In contrast, they failed to respond to glucagon as well as vasopressin. A transient 80% inhibition of the phosphorylase phosphatase activity could be induced in vitro in a concentrate liver cytosol from Wistar rats upon addition of MgATP.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Short-term hormonal control of protein phosphatases involved in hepatic glycogen metabolism. 216 98

The possible role of cyclic AMP (cAMP) in the regulation of the vasopressin (VP) gene was tested in two cellular expression systems: one cell line with endogenous VP expression and the other which was transiently with a VP promoter-luciferase fusion gene. 8,Bromo-cAMP stimulated the VP mRNA content about 4-fold in the human VP-expressing small cell lung carcinoma cell line GLC-8. The luciferase activity in P19 embryonal carcinoma cells which were transiently transfected with -174 to +44 of the 5'-flanking region of the human VP gene linked to the firefly luciferase gene, was stimulated about 2-fold by the cAMP analogue. The results indicate that cAMP plays a role in the upregulation of the VP gene and hence point to several putative nucleotide motives in the promoter functionally conferring this response.
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PMID:Vasopressin gene expression is stimulated by cyclic AMP in homologous and heterologous expression systems. 217 21

Studies on BC3H-1 myocytes suggest that the insulin-induced increase in cellular diacylglycerol level mediates the insulin-stimulated glucose transport in these cells (Standaert, M. L., Farese, R. V., Cooper, D. R., and Pollet, R. J. (1988) J. Biol. Chem. 263, 8696-8705). The present study tested whether diacylglycerol could mediate the insulin-induced and exercise-induced increases in glucose uptake by rat skeletal muscle in vivo. Glucose uptake by calf muscles of the rat was assessed by measuring cellular 2-deoxyglucose uptake in vivo. Diacylglycerol and ceramides in muscles frozen in situ were assayed with diacylglycerol kinase. Intravenous injection of 0.1 unit of insulin/rat resulted in a 6-fold increase in muscle 2-deoxyglucose uptake during the subsequent 25-min period. In contrast, no statistically significant changes in muscle diacylglycerol or ceramide levels were observed at 2, 5, 10, and 25 min after insulin injection. When calf muscles of the hindlimb were exercised in vivo for 25 min by electrical stimulation inducing one contraction/s, 2-deoxyglucose uptake by muscles was increased 15-fold. However, no statistically significant changes in muscle diacylglycerol or ceramide content were observed at 5, 10, 15, and 25 min of exercise. Although the findings do not exclude the possibility of a compartmentalized increase in diacylglycerol level, the present data suggest that diacylglycerol is not a mediator of the insulin-induced or exercise-induced augmentation of glucose uptake by skeletal muscle in vivo. Since interruption of nerve supply to the muscles makes the muscles insulin resistant (Turinsky, J., (1987) Am. J. Physiol. 252, R531-R537), the effect of denervation on diacylglycerol and ceramide levels in calf muscles of the rat was also examined. The denervation resulted in 21, 51, and 117% increases in muscle diacylglycerol levels at 3, 16, and 32 days after denervation, respectively. No statistically significant changes in muscle ceramide levels were observed at any postdenervation interval. Finally, the measured lipids were studied in muscles and livers of rats infused with supraphysiological doses of vasopressin (86 pmol/min). In controls, diacylglycerol concentrations of the muscles and liver did not significantly differ, but the liver exhibited a 5-fold higher level of ceramides than the muscles. Infusion of vasopressin for 5 min did not have a statistically significant effect on diacylglycerol concentration of the liver but continuation of the same infusion for 10 min resulted in a 63% increase in liver diacylglycerol. The 10-min infusion had no effect on muscle diacylglycerol concentration or ceramide levels in any of the tissues studied.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:1,2-Diacylglycerol and ceramide levels in rat skeletal muscle and liver in vivo. Studies with insulin, exercise, muscle denervation, and vasopressin. 218 32

The mechanisms by which arginine-vasopressin (AVP) affects pancreatic B-cell function were studied in normal mouse islets. AVP produced a dose-dependent (0.1-1000 nM; EC50 approximately 1-2 nM) amplification of glucose-induced insulin release. This amplification was of slow onset and reversibility. AVP was ineffective when the concentration of glucose was less than 7 mM, but was still very effective in 30 mM glucose. The increase in insulin release produced by AVP was accompanied by small accelerations of 86Rb and 45Ca efflux from islet cells. Omission of extracellular Ca2+ accentuated the effect of AVP on 86Rb efflux, attenuated that on 45Ca efflux, and abolished that on release. Under no condition did AVP inhibit 86Rb efflux. AVP did not significantly affect cAMP levels, but increased inositol phosphate levels in islet cells, even in the absence of extracellular Ca2+. AVP did not affect the membrane potential in unstimulated B-cells and augmented glucose-induced electrical activity only slightly. This was not due to a direct action on ATP-sensitive K+ channels as revealed by patch-clamp recordings (whole cell and outside-out patches). In conclusion, AVP is not an initiator of insulin release, but it potently amplifies glucose-induced insulin release in normal mouse B-cells. This effect involves a stimulation of phosphoinositide metabolism, and presumably an activation of protein kinase C, rather than a change in cAMP levels or a direct control of the membrane potential.
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PMID:Mechanisms of the stimulation of insulin release by arginine-vasopressin in normal mouse islets. 220 83

The presence of the classical neurohypophyseal hormone oxytocin has recently been described in the human pancreas in considerably higher concentrations than those found in peripheral plasma. Evidence in animals and man suggests that oxytocin can directly stimulate the secretion of glucagon from pancreatic islets. In order to investigate a possible paracrine role for oxytocin in the regulation of glucagon secretion we have studied the effect of oxytocin on the plasma glucagon response to insulin-induced hypoglycaemia in 10 lean fasted male subjects. Intravenous insulin tests were performed in random order with or without oxytocin infusion (2 U bolus injection; 111 mU/min for 2 hours). Blood sugar nadir occurred at the onset of symptoms (time S) with no significant differences between oxytocin and saline infusions (saline S = 24 +/- 2.3 min; oxytocin S = 23.3 +/- 2.7 min). There was no significant change in peripheral plasma oxytocin concentrations during saline infusion. During the oxytocin infusion plasma oxytocin concentrations rose from 1.05 +/- 0.1 (mean +/- SEM) pmol/l to a peak of 632 +/- 179 pmol/l and remained elevated throughout the study. Peak plasma glucagon concentrations occurred at S + 10 mins with no significant differences in peak values (saline 200 +/- 26.3 pg/ml; oxytocin 207 +/- 23.6 pg/ml) between saline and oxytocin infusions. The data suggest that oxytocin at concentrations up to 6.3 X 10(-10) M has no effect on the decline or recovery of blood glucose concentrations or on the plasma glucagon response to insulin-induced hypoglycaemia.
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PMID:The effect of oxytocin on the plasma glucagon response to insulin-induced hypoglycaemia in man. 221 21

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