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)

Angiotensin II (Ang II) belongs to the family of the calcium-mobilizing hormones which includes other vasoactive hormones such as vasopressin, endothelin, serotonin. Angiotensin can be considered as an archetype for ligands activating the calcium messenger system. Observation of the changes occurring in the two branches of the calcium messenger system--the inositol 1, 4, 5-trisphosphate/calcium branch and the diacylglycerol/protein kinase branch--upon activation by Ang II in various target cells (adrenal zona glomerulosa cells, vascular smooth muscle cells and cardiomyocytes) emphasized common features but also revealed variation in the responses and in the interaction between the two branches (so-called cross-talk). For example, the use of single cell microfluorometry with fura-2 shows that, in adrenal glomerulosa cells, Ang II induces sinusoidal oscillations of cytosolic free calcium concentration which are typical of excitable cells; by contrast in vascular smooth muscle cells, one observes transient oscillations indicative of a mechanism of calcium-induced calcium release. Furthermore, the activation of protein kinase C by angiotensin II leads to negative feed-back mechanisms on the final biological response in adrenal cells and cardiomyocytes, whereas it has a potentiating effect in vascular smooth muscle cells. On-line video microscopy allows one to follow in real time the changes in cytosolic free calcium concentration in vascular smooth muscle cells and spontaneous beating cultured cardiomyocytes thereby revealing the spatial origin of the calcium "tide" spreading throughout the cytosol. The task is now to superimpose these calcium signals, these biochemical triggers and the framework of the cytoskeleton and intracellular organelles forming the stage of this play.
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PMID:[Transmembrane signal. Respective role of free cytosol calcium and of protein kinase C]. 182 87

The effect of ethanol on receptor-mediated phospholipase C-linked signal transduction processes was investigated in isolated rat hepatocytes. Pretreatment of the cells with ethanol (6-300 mM) markedly inhibited a subsequent stimulation of phospholipase C by vasopressin, angiotensin II, or epidermal growth factor. By contrast, the effects of the alpha 1-adrenergic agonist phenylephrine and of glucagon were not affected by ethanol pretreatment. Ethanol inhibited the agonist-induced decrease in polyphosphoinositides, the formation of inositol phosphates, and the increase in cytosolic free Ca2+ levels, as detected with the intracellular Ca2+ indicator indo-1. The effects of ethanol were concentration dependent and were pronounced at low concentrations of agonists but were not significant at saturating levels. Pretreatment of the cells with the protein kinase C inhibitor H7 partly prevented the inhibition by ethanol of vasopressin-induced phospholipase C activation. By contrast, pretreatment of the cells with (Rp)-adenosine cyclic 3':5'-phosphorothioate [Rp)-cAMP-S), a competitive inhibitor of protein kinase A, potentiated the inhibitory effect of ethanol on the Ca2+ mobilization by vasopressin. (Rp)-cAMP-S similarly potentiated the inhibition of phospholipase C by the protein kinase C-activating phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA). The kinase A inhibitor also made the Ca2+ mobilization by phenylephrine sensitive to ethanol, indicating that the formation of cAMP in the cells played a role in suppressing the sensitivity to ethanol. Pretreatment of the cells with ethanol enhanced the inhibitory effects of TPA on the vasopressin-induced phospholipase C activation at all concentrations of the hormone; however, these synergistic effects were prevented when TPA was added prior to ethanol, a condition that prevents the activation of phospholipase C by ethanol. The data indicate that ethanol causes desensitization of the receptor-mediated phospholipase C secondary to the ethanol-induced activation of phospholipase C and activation of protein kinase C. Ethanol treatment also affects the sensitivity of the phospholipase C system to control by protein kinases A and C. The data indicate that ethanol can affect the control of intracellular signal transduction processes in liver cells under physiologically relevant conditions.
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PMID:Ethanol causes desensitization of receptor-mediated phospholipase C activation in isolated hepatocytes. 184 16

Endothelin (ET) exerts various biological actions in mesangial cells, including stimulation of proliferation, contraction and phospholipase C activation. We investigated the presence of specific ET receptors on cultured rat mesangial cells, incubating the cells in the presence of [125I]ET-1 both at 22 and 4 degrees C. ET binding was time- and temperature-dependent and achieved equilibrium at 2 hr at 22 degrees C and at 5 hr at 4 degrees C. Scatchard analyses of equilibrium saturation curves with [125I]ET-1 and homologous competition curves revealed the presence of a single class of high-affinity binding sites (Kd = 31.4 +/- 7.08 pM). Heterologous competition experiments with ET-3 and sarafotoxin, however, indicated the presence of two binding sites for ET-related peptides in mesangial cells with a Kd for ET-3 of 41.5 +/- 19.2 and of 374 +/- 38.5 nM. Nifedipine and arginine-vasopressin failed to compete for ET binding sites. Preincubation of the cells with 1 nM ET-1 caused a dramatic decrease in ET binding capacity (from 0.5-0.02 fmol/100,000 cells) without affecting the Kd for the receptors (38 pM). ET receptor down regulation was not prevented by protein kinase C inhibition with H-7 and sangiovamycin, or after down regulation of protein kinase C induced by 24-hr preincubation with phorbol myristate acetate. ET receptor down regulation also exerts functional effects, as we found a decrease in intracellular-free calcium response to ET-1 after long-term preincubation with the same agonist. Our results are consistent with the presence of two binding sites for ET in rat mesangial cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelin binding and receptor down regulation in rat glomerular mesangial cells. 184 3

We found that glucagon stimulated membrane protein kinase C (PKC) activity and phosphatidylcholine hydrolysis in 24 h-cultured rat hepatocytes. Phorbol myristate acetate, 8-bromo cyclic AMP, vasopressin, noradrenaline and the Ca2+ ionophore A23187 also stimulated membrane PKC activity. However, only vasopressin and noradrenaline stimulated inositol phosphate accumulation, whereas all agonists stimulated the rate of release of water-soluble choline metabolites into the medium. Choline, and to a much lesser extent phosphocholine, were released, suggesting predominantly phospholipase D activation. This was supported by the finding that the accumulation of phosphatidate and diacylglycerol was enhanced by the agents in [3H]myristate-labelled hepatocytes, as was [32P]phosphatidylethanol formation. Since the time courses for the release of choline into the medium and the accumulation of phosphatidate and diacylglycerol caused by vasopressin and glucagon were similar, the more rapid activation of PKC by vasopressin probably reflects diacylglycerol formation from phosphoinositide breakdown. The inability of glucagon to stimulate inositol phosphate production was not due to the prolonged culture, since similar results were obtained in 4 h cultures. We conclude that the stimulation of membrane PKC activity by glucagon correlates with accumulation of diacylglycerol and phosphatidate derived from the hydrolysis of phosphatidylcholine.
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PMID:Activation of membrane protein kinase C by glucagon and Ca(2+)-mobilizing hormones in cultured rat hepatocytes. Role of phosphatidylinositol and phosphatidylcholine hydrolysis. 185 65

Employing the non-recirculating perfused rat liver preparation, we have investigated the regulation of hepatic gluconeogenesis, and metabolic fluxes through the tricarboxylic acid cycle and 2-oxoglutarate dehydrogenase reaction by epidermal growth factor (EGF) which mimics the actions of both insulin and Ca(2+)-mobilizing hormones (e.g. vasopressin). As monitored by the rate of 14CO2 production from [2-14C]pyruvate (0.5 mM), EGF (10 nM) transiently stimulated the activity of the tricarboxylic acid cycle. EGF also transiently stimulated hepatic gluconeogenesis from pyruvate. The transient stimulation of tricarboxylic acid cycle activity and gluconeogenesis were accompanied by an increase in perfusate Ca2+ content indicating that EGF also altered hepatic Ca2+ fluxes. EGF-elicited stimulation of gluconeogenesis was, at least in part, the result of a transient (50%) inhibition of pyruvate kinase activity. Likewise, EGF-mediated stimulation of tricarboxylic acid cycle activity can, in part, be attributed to EGF-elicited stimulation of metabolic flux through the mitochondrial, Ca(2+)-sensitive, 2-oxoglutarate dehydrogenase reaction. The regulation of hepatic metabolism by EGF appears to be the manifestation of alteration in cellular Ca2+ content since in experiments performed under conditions known to abolish the ability of EGF to alter cytosolic free-Ca2+ concentrations, i.e. in livers of pertussis-toxin-treated rats, EGF did not alter either perfusate Ca2+ content or any of the metabolic parameters monitored. Additionally, experiments involving pulsatile infusion of either EGF or phenylephrine into livers demonstrated that, unlike the alpha 1-adrenergic receptor, homologous desensitization of the EGF receptor occurs. Such a homologous desensitization of the EGF receptor can explain the transient nature of EGF-elicited stimulation of various metabolic processes. Since protein kinase C activation by EGF can lead to receptor desensitization, experiments were performed with phorbol esters which either activate or do not alter protein kinase C activity. While the inactive phorbol ester 4 alpha-phorbol 12,13-didecanoate did not modulate the hepatic actions of EGF, activation of protein kinase C by 4 beta-phorbol 12-myristate 13-acetate (70 nM) abolished the ability of EGF to stimulate gluconeogenesis, tricarboxylic acid cycle activity and metabolic flux through the 2-oxoglutarate dehydrogenase complex.
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PMID:Regulation of hepatic energy metabolism by epidermal growth factor. 190 8

Stimulation of quiescent human fibroblasts with the peptide mitogen bradykinin (BK) led to a biphasic elevation in cellular 1,2-diacylglycerol (DAG), as estimated by either measurement of total DAG mass or [3H]arachidonate incorporation. A rapid initial transient that peaked 15 s after BK addition was followed by a decline to near basal levels then a second rise to a plateau phase during which DAG levels remained elevated for less than or equal to 45 min. The source of the initial DAG transient appeared to be primarily polyphosphoinositides as these phospholipids were rapidly hydrolyzed after BK addition. This transient correlates well temporally with previous observations of the kinetics of inositol trisphosphate accumulation and intracellular free [Ca2+] observed in the same cells. Cultures preincubated with [3H]myristic acid incorporated label predominantly into the phosphatidylcholine (PC) pool. Subsequent addition of BK under these conditions caused only a relatively slow accumulation of [3H]DAG to a plateau level, without an initial transient. Together with the observation that PC was found to decrease upon BK stimulation, these observations suggest that the late phase of DAG accumulation may involve breakdown of other phospholipids including PC. To investigate the consequences of DAG elevation we examined the phosphorylation of an acidic 80 kDa protein, whose phosphorylation is solely dependent on the activation of protein kinase C (PK-C). The 80 kDa fibroblast protein could be immunoprecipitated by an antibody to bovine brain "myristoylated and alanine-rich C-kinase substrate" (MARCKS) and phosphopeptide maps of brain and fibroblast MARCKS were similar. Stimulation of [32P]-prelabeled fibroblasts with serum, BK, vasopressin, or 12-O-tetradecanoyl phorbol acetate, but not epidermal growth factor or calcium ionophores, resulted in the rapid phosphorylation of MARCKS. With BK or serum this phosphorylation showed an initial transient peak at less than 1 min then rose again to a plateau level that was sustained for less than or equal to 45 min. Removal of BK resulted in a rapid decline in MARCKS phosphorylation. These studies show that the biphasic DAG signal in BK-stimulated human fibroblasts correlates well with the state of activation of PK-C. However, the persistent activation of PK-C does not appear to require continued high levels of Ca2+.
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PMID:Transduction of the bradykinin response in human fibroblasts: prolonged elevation of diacylglycerol level and its correlation with protein kinase C activation. 190 4

Vasopressor hormones alter efflux of glutathione (GSH) and increase permeability of tight junctions in perfused rat liver. Infusions of 10 nM angiotensin II, 10 microM phenylephrine, and 10 nM vasopressin significantly increased efflux of GSH into perfusate by 32-41% and decreased biliary efflux by 31-57%. Direct modulation of protein kinase C (PKC) activity by 600 nM phorbol 12,13-dibutyrate (PDB), 5 microM 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), 5 microM sphingosine, or 10 nM staurosporine altered the pattern of efflux of GSH but not biliary oxidized glutathione disulfide (GSSG)-GSH ratios. Phorbol dibutyrate mimicked the vasopressor-mediated effects, increasing perfusate efflux by 31% and decreasing biliary efflux by 45%. Inhibitors of PKC caused qualitatively opposite responses, changing perfusate GSH by -37 to 18% and increasing biliary efflux by 22-161%. Whereas vasopressin increased penetration of [14C]sucrose into bile, modulation of PKC activity by PDB and H-7 did not affect the permeability of tight junctions to [14C]sucrose. Although pretreatment with H-7 blocked vasopressin-mediated changes in efflux of GSH, it did not prevent the increase in [14C]sucrose penetrance. We conclude that alterations in sinusoidal and biliary efflux of GSH can occur independent of changes in permeability of hepatocellular tight junctions. These findings suggest a role for protein kinase C in modulating the hepatic efflux of GSH.
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PMID:Effects of vasopressor hormones and modulators of protein kinase C on glutathione efflux from perfused rat liver. 192 46

Vasopressin stimulates lactate production by hepatocytes from fed rats, an effect which has been attributed exclusively to Ca2+ activation of glycogenolysis. We provide evidence here for two further actions of vasopressin which affect lactate formation by rat hepatocytes. In the presence of 50 mM glucose, vasopressin inhibited lactate production by hepatocytes. The inhibition was relieved by the presence of alpha-cyano-4-hydroxycinnamate (alpha-CHC), which blocks mitochondrial pyruvate transport. This suggests that vasopressin stimulates pyruvate utilization in the presence of a high concentration of glucose. Epidermal growth factor (EGF), which also increases lactate formation by hepatocytes, did not similarly decrease lactate accumulation in the presence of high glucose, suggesting no stimulation of lactate and pyruvate utilization by this hormone. In cells depleted of Ca2+, vasopressin also stimulated lactate formation. Although vasopressin did not cause the apparent translocation of protein kinase C between cell spaces, phospholipase C treatment of hepatocytes did duplicate vasopressin stimulation of lactate formation, provided fatty acid oxidation was suppressed by the simultaneous presence of the inhibitor palmixorate. We conclude that three actions of vasopressin affect lactate and pyruvate formation: the calcium-linked activations of glycogenolysis and mitochondrial pyruvate utilization, and a stimulation of glycolysis likely mediated by protein kinase C.
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PMID:Vasopressin stimulates pyruvate utilization through a Ca(2+)-dependent mechanism and lactate formation by a protein kinase C-dependent mechanism in isolated rat hepatocytes. 193 35

To gain insight into the mechanisms that could account for the augmentation of cellular reactivity in primary hypertension, we have examined some of the biochemical events which are implicated in the transmission of mitogenic signal as well as in cell reactivity. This study focussed on phospholipase C, protein kinase C and GTP-binding proteins (G-proteins), in response to thrombin or arginin-vasopressin (AVP). Cultured fibroblasts prepared from the adventitia of thoracic aorta of spontaneously hypertensive rat (SHR) were used as cell models and were compared with fibroblasts prepared from controls Wistar-Kyoto (WKY) rats. The mitogenicity of each agonist was estimated by measuring the incorporation of 3H-thymidine into the newly synthesized DNA. The agonist-induced phospholipase C activity was evaluated by measuring the production of 3H-inositol phosphates in cells prelabeled with 3H-inositol. The influence of protein kinase C and that of G proteins on the mitogenesis in cells stimulated by thrombin or AVP was determined by pretreating cells with phorbol 12-myristate, 13-acetate (TPA) and pertussis toxin, respectively. Kinetics and dose response studies have demonstrated that in response to thrombin and AVP, the phospholipase C activity and the incorporation of 3H-thymidine were significantly higher in the fibroblasts derived from SHR.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Activation mechanisms by thrombin and vasopressin of fibroblasts in spontaneously hypertensive rats]. 195 75

Osmotic water permeability (Pf) in toad bladder is regulated by the vasopressin (VP)-dependent movement of vesicles containing water channels between the cytoplasm and apical membrane of granular cells. Apical endosomes formed in the presence of serosal VP have the highest Pf of any biological or artificial membrane (Shi and Verkman. 1989. J. Gen. Physiol. 94:1101-1115). We examine here: (a) the influence of protein kinase A and C effectors on transepithelial Pf (Pfte) in intact bladders and on the number and Pf of labeled endosomes, and (b) whether endosome Pf can be modified physically or biochemically. In paired hemibladder studies, Pfte induced by maximal serosal VP (50 mU/ml, 0.03 cm/s) was not different than that induced by 8-Br-cAMP (1 mM), forskolin (50 microM), VP + 8-Br-cAMP, or VP + forskolin. Pf was measured in endosomes labeled in intact bladders with carboxyfluorescein by a stopped-flow, fluorescence-quenching assay using an isolated microsomal suspension; the number and Pf (0.08-0.11 cm/s, 18 degrees C) of labeled endosomes was not different in bladders treated with VP, forskolin, and 8-Br-cAMP. Protein kinase C activation by 1 microM mucosal phorbol myristate acetate (PMA) induced submaximal bladder Pfte (0.015 cm/s) and endosome Pf (0.022 cm/s) in the absence of VP, but had little effect on maximal Pfte and endosome Pf induced by VP. However, PMA increased by threefold the number of apical endosomes with high Pf formed in response to serosal VP. Pf of endosomes containing the VP-sensitive water channel decreased fourfold by increasing membrane fluidity with hexanol or chloroform (0-75 mM); Pf of phosphatidylcholine liposomes (0.002 cm/s) increased 2.5-fold under the same conditions. Endosome Pf was mildly pH dependent, strongly inhibited by HgCl2, but not significantly altered by GTP gamma S, Ca, ATP + protein kinase A, and phosphatase action. We conclude that: (a) water channels cycled in endocytic vesicles are functional and not subject to physiological regulation, (b) VP and forskolin do not have cAMP-independent cellular actions, (c) activation of protein kinase C stimulates trafficking of water channels, but does not increase the number of apical membrane water channels induced by maximal VP, and (d) water channel function is sensitive to membrane fluidity. By using VP and PMA together, large quantities of endosomes containing the VP-sensitive water channel are labeled with fluid-phase endocytic markers.
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PMID:Regulation of the formation and water permeability of endosomes from toad bladder granular cells. 197 9

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