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 isolated rat hepatocytes, vasopressin evoked a large increase in the incorporation of [32P]Pi into phosphatidylinositol, accompanied by smaller increases in the incorporation of [1-14C]oleate and [U-14C]glycerol. Incorporation of these precursors into the other major phospholipids was unchanged during vasopressin treatment. Vasopressin also promoted phosphatidylinositol breakdown in hepatocytes. Half-maximum effects on phosphatidylinositol breakdown and on phosphatidylinositol labelling occurred at about 5 nM-vasopressin, a concentration at which approximately half of the hepatic vasopressin receptors are occupied but which is much greater than is needed to produce half-maximal activation of glycogen phosphorylase. Insulin did not change the incorporation of [32P]Pi into the phospholipids of hepatocytes and it had no effect on the response to vasopressin. Although the incorporation of [32P]Pi into hepatocyte lipids was decreased when cells were incubated in a Ca2+-free medium, vasopressin still provoked a substantial stimulation of phosphatidylinositol labelling under these conditions. Studies with the antagonist [1-(beta-mercapto-beta, beta-cyclopentamethylenepropionic acid),8-arginine]vasopressin indicated that the hepatic vasopressin receptors that control phosphatidylinositol metabolism are similar to those that mediate the vasopressor response in vivo. When prelabelled hepatocytes were stimulated for 5 min and then subjected to subcellular fractionation. The decrease in [3H]phosphatidylinositol content in each cell fraction with approximately in proportion to its original phosphatidylinositol content. This may be a consequence of phosphatidylinositol breakdown at a single site, followed by rapid phosphatidylinositol exchange between membranes leading to re-establishment of an equilibrium distribution.
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PMID:Phosphatidylinositol metabolism in rat hepatocytes stimulated by vasopressin. 703 Mar 16

cAMP and Ca(2+)-dependent glycogenolytic pathways are regulated by different hormones involved in the activation of glycogen phosphorylase in isolated rat hepatocytes. Dose-dependent glucagon activation of glycogen phosphorylase and lowering of cAMP levels were obtained by vasopressin and angiotensin treatment. Similar time courses of Ca2+ fluxes and phosphorylase activation were induced by vasopressin, angiotensin and phenylephrine. Heterologous down-regulation of hormones was induced in glycogenolysis in hepatocytes. These results could be of significance in physiology studies in vivo.
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PMID:[Regulation of glycogenolysis against hormones in isolated rat hepatocytes]. 824 20

Rats were infused with endotoxin (50 micrograms/100 g body wt) for 3 h, and the parenchymal cells of the liver were maintained in primary culture for 1-3 h. The effects of vasopressin, norepinephrine, and glucagon on the activation of phosphatidylinositol (PI)-phospholipase C, phosphatidylcholine (PC)-phospholipase D, and glycogen phosphorylase a were investigated. Activation of PI-phospholipase C was markedly reduced, particularly with norepinephrine. This confirms that one of the early metabolic impairments seen in acute endotoxin treatment is inhibition of PI-phospholipase C activity. However, the ability of vasopressin, norepinephrine, and glucagon to stimulate glycogen phosphorylase a and PC-phospholipase D was not affected by this endotoxin treatment. We conclude that activation of phosphorylase a by vasopressin and norepinephrine is not entirely dependent on the activation of PI-phospholipase C and inositol trisphosphate formation.
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PMID:LPS inhibits PI-phospholipase C but not PC-phospholipase D or phosphorylase activation by vasopressin and norepinephrine. 838 92

Hepatocytes from chronically endotoxemic rats, or appropriate saline controls, were maintained in primary culture for 3 or 20 h. The ability of a variety of hormones to stimulate glycogen phosphorylase a was examined. At 3 h in culture, hepatocytes from endotoxemic rats had lower basal activities and exhibited impaired response to vasopressin, angiotensin II, and, to a lesser extent, norepinephrine and glucagon. The norepinephrine response was predominantly of the alpha-type in the saline rats but mixed alpha- and beta-type in the endotoxic cells. After 20 h in culture, vasopressin and angiotensin II responses were still impaired, while norepinephrine and glucagon responses were similar to those seen in the saline cells. The response to norepinephrine was predominantly of the beta-type in the endotoxic cells but still of the alpha-type in the saline cells. The results show that multiple mechanisms are involved in endotoxin-mediated inhibition of glycogen phosphorylase a activity and that alterations in intracellular calcium homeostasis play more of a significant role than adenosine 3',5'-cyclic monophosphate-mediated processes in diminished responsiveness of the liver seen in endotoxemia.
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PMID:Shift from alpha- to beta-type adrenergic receptor-mediated responses in chronically endotoxemic rats. 838 59

Hepatocytes were isolated from human liver tissue by a two-step perfusion technique. They were treated with vasopressin, angiotensin, ATP and phenylephrine, which are known to be Ca(2+)-mediated glycogenolytic agents in rat liver tissue, and as a control, they were treated with the cyclic AMP-mediated hormones glucagon and isoproterenol. All agonists induce a time-dependent activation of glycogen phosphorylase. Glucagon and isoproterenol induce a somewhat higher degree of phosphorylase activation compared with vasopressin, angiotensin, ATP and phenylephrine, which all increase inositol tris-phosphate levels and have no effect on the cyclic AMP levels. The total activity of glycogen phosphorylase (a + b), amounting to 30 to 35 mU/mg protein, is found to be much lower than that found in rat liver tissue. Because only minor differences could be found, we conclude that the regulation of glycogen phosphorylase in human liver tissue is basically the same as that found in rat liver tissue.
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PMID:Regulation of glycogen phosphorylase activity in isolated human hepatocytes. 838 94

Experiments were conducted to characterize the thapsigargin-stimulated plasma membrane Ca2+ inflow pathway in hepatocytes. Ca2+ inflow was estimated by measurement of the initial rate of activation of glycogen phosphorylase a following the addition of Ca2+ to cells previously incubated in the absence of added Ca2+. Pretreatment of hepatocytes with thapsigargin caused a substantial stimulation of the rate of Ca2+ activation of glycogen phosphorylase a. This was interpreted to reflect a stimulation of plasma membrane Ca2+ inflow. The effect of thapsigargin on plasma membrane Ca2+ inflow was approximately 65% of the magnitude of the effect caused by vasopressin. When thapsigargin and vasopressin were combined as a stimulus, the degree of stimulation was similar to that caused by vasopressin alone. The thapsigargin-induced stimulation of the rate of Ca2+ activation of glycogen phosphorylase a was inhibited in a concentration-dependent manner by both Zn2+ and 1-(beta-[3-(4-methoxyphenyl)propoxy]-4-methoxyphenethyl)-1H-imidazole hydrochloride (SK&F 96365). The concentration of each agent required for half-maximal inhibition was approximately 20 microM. It is concluded from: (i) the apparent lack of additivity in the responses of thapsigargin and vasopressin, and (ii) the sensitivity to inhibitors, that the Ca2+ inflow pathway in hepatocytes stimulated by thapsigargin is likely to be similar to that which is activated by vasopressin.
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PMID:Evidence that the Ca2+ inflow pathway in hepatocytes stimulated by thapsigargin is similar to that activated by vasopressin. 851 98

We have previously established that the eleven cytosolic peptides phosphorylated in response to acute glucagon challenge in isolated rat hepatocytes undergo rapid dephosphorylation following transfer to medium free of 32PO4(3-). This dephosphorylation, far from being a simple process, is complex and asynchronous. This novel finding of asynchrony raises the question of whether, by analogy to glucagon, protein dephosphorylation is asynchronous during the recovery phase from acute challenge with noradrenaline, vasopressin or angiotensin II. One-dimensional SDS-PAGE of hepatocyte extracts indicates that noradrenaline stimulates the phosphorylation of ten cytosolic peptides, whereas vasopressin and angiotensin II stimulate the phosphorylation of six cytosolic peptides. Transfer of the hormone-challenged hepatocytes to medium devoid of 32PO4(3-) and hormone led to the rapid net dephosphorylation of the 32P-labelled phosphopeptides, albeit at different rates. In all instances, the most rapidly dephosphorylated phosphopeptide was glycogen phosphorylase. Statistical analysis indicates that during recovery from noradrenaline challenge three distinct groups of phosphopeptides can be delineated on the basis of their rates of dephosphorylation. Despite the fact that vasopressin and angiotensin II stimulate the phosphorylation of the same sub-set of phosphopeptides, there were differences in the rates of dephosphorylation of these phosphopeptides during the recovery phase from acute hormonal challenge.
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PMID:Recovery from acute challenge with noradrenaline, vasopressin and angiotensin II in isolated rat hepatocytes. 859 6

This study was designed to ascertain whether the extracellular loops of vasopressin/oxytocin receptors bind ligands and, if so, to locate the molecular determinants of this ligand-receptor interaction. Ligand-binding studies were employed using a rat liver V1a vasopressin receptor preparation and both peptide and non-peptide receptor ligands. Synthetic peptides corresponding to defined regions of the extracellular surface of the neurohypophysial hormone receptors recognized radioligands. These receptor mimetics inhibited the binding of radioligands to the V1a receptor with apparent affinities (pKi) ranging from 3.1 to 6.75. The same mimetics had no effects on the binding of angiotensin II to the rat AT1 receptor, indicating specificity for V1a receptor ligands. A mimetic peptide (DITYRFRGPDWL) of the first extracellular loop (ECII) of the V1a vasopressin receptor also inhibited vasopressin-stimulated, but not angiotensin II-stimulated, glycogen phosphorylase in isolated rat hepatocytes. In contrast, scrambled ECII mimetics displayed greatly reduced affinity for vasopressin. In addition, the role of peptide side-chain versus main-chain atoms in the binding of ligands by vasopressin receptors was addressed using retro-inverso peptide mimetics. Our findings indicate a precise orientation of the extracellular receptor surface (particularly the ECII domain) which facilitates the initial 'capture' of both peptide and non-peptide ligands. Moreover, the data indicate that the main-chain atoms of both a major binding-site determinant in the first extracellular loop of the receptor and the neurohypophysial hormones contribute significantly to the ligand-receptor interaction. These findings also suggest that soluble receptor-binding domains have therapeutic potential.
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PMID:Molecular recognition of peptide and non-peptide ligands by the extracellular domains of neurohypophysial hormone receptors. 871 88

Although several hormones that promote hepatocyte proliferation also activate phosphoinositide-specific phospholipase C (PI-PLC) and mobilize Ca2+, the role of PI-PLC in the growth-stimulating effect of these agents is not clear. We have investigated this issue further, by exposing freshly isolated adult rat hepatocytes to vasopressin, angiotensin II, norepinephrine (in the presence of the beta-adrenoceptor blocker timolol) or PGF2 alpha, and examined both acute responses and the subsequent DNA synthesis when the cells were grown in monolayer culture. All the agonists elevated the level of inositol 1,4,5-trisphosphate (InsP3) and enhanced the DNA synthesis, amplifying the response to epidermal growth factor (EGF), and this comitogenic effect could be exerted by a single exposure of the cells 24 h prior to the addition of EGF. The acute activation of PI-PLC, measured as the early rise (peak 15-60 s) in InsP3, was 8-10-fold with vasopressin or angiotensin II, 3-4-fold with norepinephrine, and approximately 2-fold with PGF2 alpha. For all the agonists, a rise in cytosolic free Ca2+ in 100% of the cells and a maximal increase in glycogen phosphorylase activity were evoked at concentrations that approximately doubled the level of InsP3. However, the growth-stimulatory effects of these agonists showed a different order of efficacy as compared to the activation of PI-PLC; in terms of the maximal stimulation of DNA synthesis, the effects were: norepinephrine approximately PGF2 alpha > angiotensin II > vasopressin. Also, norepinephrine, PGF2 alpha, and angiotensin II, but not vasopressin, further enhanced the DNA synthesis when their concentrations were increased above those yielding maximal elevation of InsP3. In experiments where vasopressin and angiotensin II were combined, their effects on the DNA synthesis were additive while the InsP3 responses were not. The results show that the extent of the initial activation of PI-PLC is not the determinant for the magnitude of the growth effects of Ca(2+)-mobilizing hormones in hepatocytes. This suggests either (a) that the proliferative response to these agents is determined by the activity of PI-PLC at a later time, or its integral over an extended part of the prereplicative period, rather than by the acute activation, or (b) that additional, PI-PLC-independent, mechanisms are required.
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PMID:Growth-promoting effects of Ca(2+)-mobilizing agents in hepatocytes: lack of correlation between the acute activation of phosphoinositide-specific phospholipase C and the stimulation of DNA synthesis by angiotensin II, vasopressin, norepinephrine, and prostaglandin F2 alpha. 881 15

Decrease of alpha-adrenergic responses during primary culture of rat hepatocytes was studied. Activation of glycogen phosphorylase by phenylephrine was decreased in the early stage of the culture (within 6 h), however, Ins-P3 production was almost intact until 12 h of the culture and then declined. alpha-Adrenoceptor-mediated Ca2+-mobilization and Ins-P3-induced Ca2+ release from microsomal fractions were decreased in the early stage of the culture, similar to the above change of phosphorylase activation. We found that decrease of Ins-P3-binding sites in the early stage of the culture was the cause of differential change of Ins-P3-Ca2+ signaling during the culture of hepatocytes. Similar changes described above were also observed in vasopressin-induced responses. However, the changes of Ins-P3-Ca2+ signaling did not occur in a high-cell density culture of rat hepatocytes. In conclusion, the loss of phenylephrine- and vasopressin-induced responses in cultured liver cells appear to be due to change of Ins-P3-binding sites as well as decreased Ins-P3 production due to reduction of receptor numbers.
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PMID:Differential change of Ins-P3-Ca2+ signaling during culture of rat hepatocytes. 1545 Oct 28


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