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)

Single rat hepatocytes microinjected with aequorin show free Ca oscillations when stimulated with Ca(2+)-mobilizing hormones. We show here that an inhibitor of diacylglycerol kinase (R 59 022) and an analogue of native diacylglycerol (diC8) inhibit free Ca oscillations induced by phenylephrine and vasopressin. These results agree with a negative feedback effect of protein kinase C on free Ca oscillations.
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PMID:Effect of perturbing diacylglycerol metabolism on cytosolic free Ca2+ oscillations induced in single hepatocytes. 133 Jun 80

The Ca(2+)-sensitive photoprotein aequorin was used to monitor changes in intracellular [Ca2+] within cultured cells with characteristics of vascular smooth muscle. Two cell lines were investigated: they were A10 cells, which are transformed cells originally derived from rat aorta, and BC3H1 cells obtained from mouse brain neoplasm. Transient increases in intracellular [Ca2+] were induced following exposure to two different volatile anaesthetics (halothane and isoflurane) and various vasoactive substances (acetylcholine, endothelin, histamine, serotonin and vasopressin). The amplitude of the transients induced by isoflurane were more dependent on the presence of extracellular Ca2+ than those induced by halothane, thus the modes and/or locations of action of these two anesthetics are somewhat different. The response of the two cell lines to the vasoactive substances are unique. Receptor activated changes in [Ca2+]i by various agonists were diminished in the presence and absence of either anesthetic. These data suggest that, although the receptor populations within each cell line were slightly different, the prior application of a volatile anesthetic in a clinically-relevant dose induced a transient increase in [Ca2+]i that could subsequently diminish agonist responses.
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PMID:The effects of halothane and isoflurane on intracellular Ca2+ regulation in cultured cells with characteristics of vascular smooth muscle. 142 31

The effects of increases in cytosolic Ca2+ on hepatocyte bile secretion are unknown. A number of agents that alter levels of cytosolic Ca2+ in the hepatocyte also produce hepatic vasoconstriction and activate protein kinase C, which complicates interpretations of their effects on bile secretion. To better understand the role of cytosolic Ca2+ in bile secretion, we examined the effect of the Ca2+ ionophore A23187 (0.1 mumol/L), the Ca2+ agonist vasopressin (10 nmol/L) and the Ca(2+)-mobilizing agent, 2,5-di(tert-butyl)-1,4-benzohydroquinone (25 mumol/L) on cytosolic Ca2+ in isolated hepatocytes and on bile flow in the isolated perfused rat liver, using vasodilators and inhibitors of protein kinase C and Ca2+ influx. Single-pass perfused livers were used, and cytosolic Ca2+ was measured by luminescent photometry in isolated hepatocytes loaded with the Ca(2+)-sensitive photoprotein aequorin. After A23187 perfusion, a sustained 74% +/- 10% (mean +/- S.D.) decrease in bile flow and a sustained 271% +/- 50% increase in perfusion pressure was observed. Simultaneous pretreatment with the vasodilator papaverine (25 mumol/L) and the protein kinase C inhibitor H-7 (50 mumol/L) abolished the pressure increase but not the decrease in bile flow, whereas pretreatment with Ni2+ (25 mumol/L) to block the influx of extracellular Ca2+ markedly reduced both the pressure increase and the decrease in bile flow. Vasopressin produced a transient (mean = 6 min) 75% +/- 4% decrease in bile flow and a sustained 7% +/- 4% increase in perfusion pressure. Pretreatment with H-7 alone corrected the vasopressin-induced pressure increase but also failed to eliminate the decrease in bile flow, whereas pretreatment with Ni2+ decreased the magnitude of the decrease by two-thirds without affecting the increase in perfusion pressure, 2,5'-di(tert-butyl)-1,4-benzohydroquinone produced a transient 65% +/- 20% decrease in bile flow and a transient 56% +/- 15% increase in perfusion pressure. In isolated hepatocytes, bromo-A23187, the nonfluorescent form of the ionophore, produced a sustained 56% +/- 32% increase in the cytosolic Ca2+ signal, whereas vasopressin resulted in a transient 241% +/- 75% increase and 2,5-di(tert-butyl)-1,4-benzohydroquinone resulted in a sustained 149% +/- 66% increase. The ionophore-induced increase in Ca2+ was abolished completely by pretreatment of the hepatocytes with Ni2+, whereas the vasopressin-induced increase was reduced by 38%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effects of Ca2+ agonists on cytosolic Ca2+ in isolated hepatocytes and on bile secretion in the isolated perfused rat liver. 172 85

To pursue our studies of the effects of adrenalectomy on the adrenergic regulation of phosphorylase a, cAMP, cell calcium, and Ca2+ signaling in rat hepatocytes (Studer, R.K., and Borle, A.B. (1984) Biochim. Biophys. Acta 804, 377-385; Freudenrich, C.C., and Borle, A.B. (1988) J. Biol. Chem. 263, 8604-8610), we have further examined the alpha 1-adrenergic pathway in adrenalectomized and sham-operated male rats. We measured the number and affinity of alpha 1-adrenergic receptors, the cytosolic free Ca2+ concentration [(Ca2+]i) of hepatocytes with aequorin, inositol triphosphate (IP3) accumulation, and Ca2+ influx and efflux across the plasma membrane. We also compared the effects of vasopressin with those obtained with epinephrine. We found that the number of alpha 1-adrenergic receptors was slightly depressed (-23%), but that their affinity was unchanged. However, IP3 accumulation evoked by epinephrine was decreased 50%. This is probably the main cause for the depressed peak rise in [Ca2+]i we previously observed and reported. We also found that the basal resting Ca2+ influx was increased after adrenalectomy. Experiments with the beta-blocker propranolol, which abolished the epinephrine-evoked increase in Ca2+ influx, suggest that this effect may be mediated by cAMP, at least in adrenalectomized animals. The effects of vasopressin on IP3 [Ca2+]i and Ca2+ influx and efflux were also significantly decreased after adrenalectomy, indicating that alpha 1-adrenergic-mediated and other IP3-dependent Ca2+ signaling pathways are depressed after adrenalectomy.
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PMID:Effect of adrenalectomy on Ca2+ signaling in rat hepatocytes. 217 39

Single rat hepatocytes, microinjected with the calcium-sensitive photoprotein aequorin, when stimulated with either phenylephrine or arg8-vasopressin exhibit agonist-specific oscillations in cytosolic free calcium levels (free Ca). In the majority of the cells examined adding excess potassium chloride, sodium chloride or choline chloride abolished transient behaviour. However, in cells that continued to oscillate the transient parameters were subtly modified by these treatments. In experiments using phenylephrine as the agonist, adding excess potassium chloride to the superfusate significantly reduced transient length, increased the rate of transient rise and reduced the smoothed peak free Ca level without significantly altering the intertransient resting free Ca level or the falling time constant. The possible mechanisms by which these alterations may occur are discussed.
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PMID:Modulation of free Ca oscillations in single hepatocytes by changes in extracellular K+, Na+ and Ca2+. 236 12

Glucagon increases the cytoplasmic free calcium concentration as measured by aequorin bioluminescence. It has been proposed by Wakelam et al. (Nature 323 (1986) 68-71) that low concentrations of glucagon mobilize calcium from an intracellular pool by causing polyphosphoinositide breakdown. To identify whether cyclic AMP mediates changes in the cytoplasmic free calcium concentration ([Ca2+]c) induced by glucagon, the effects of forskolin and exogenous cyclic AMP on [Ca2+]c were compared with that of glucagon in aequorin-loaded hepatocytes. Although the magnitudes of the [Ca2+]c responses to 250 microM forskolin and 1 mM 8-bromo cyclic AMP were identical to that of 5 nM glucagon, these two agents induced a more prolonged elevation of [Ca2+]c. Glucagon-induced elevation of [Ca2+]c was accompanied by a smaller increase in cyclic AMP than that induced by forskolin. When the cyclic AMP response to glucagon was potentiated by an inhibitor of phosphodiesterase, 3-isobutyl-1-methylxanthine, the glucagon-induced increase in [Ca2+]c was not affected. Conversely, when the cyclic AMP response to glucagon was reduced by pretreatment of the cells with angiotensin II, glucagon-induced changes in [Ca2+]c were rather enhanced. Furthermore, vasopressin potentiated glucagon-induced changes in [Ca2+]c despite the reduction of the cyclic AMP response to glucagon. In the presence of 1 microM extracellular calcium, angiotensin II did not enhance glucagon-induced changes in [Ca2+]c. These results suggest that at least part of the action of 5 nM glucagon on calcium mobilization is independent of cyclic AMP.
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PMID:Evidence of cyclic AMP-independent action of glucagon on calcium mobilization in rat hepatocytes. 245 73

Changes in intracellular free Ca2+ concentration [( Ca2+]i) produced by growth factors and mitogens have been studied using aequorin-loaded Swiss 3T3 cells. Decreasing free Ca2+ in the external medium by using EGTA had no significant effect on the increase in [Ca2+]i produced by vasopressin, bradykinin, bombesin or prostaglandin E2, but reduced the increase in [Ca2+]i produced by platelet derived growth factor (PDGF) by 58%, by prostaglandin E1 44% and by prostaglandin F2 alpha 47%. The dihydropyridine Ca2+-channel antagonist nifedipine at 10 microM inhibited the [Ca2+]i response to PDGF by 41% in both the presence of and in the absence of external Ca2+. Methyl-1,4-dihydro-2,6-dimethyl-3-nitro-4-(2-trifluoromethylphenyl) pyridine-5-carboxylate (BAY K8644), a Ca2+-channel agonist, at 10 microM produced an increase in [Ca2+]i and decreased the [Ca2+]i response to PDGF by 39%. Nifedipine did not block 45Ca2+ uptake or release by inositol 1,4,5-trisphosphate in saponin-permeabilized Swiss 3T3 fibroblasts but BAY K8644 inhibited 45Ca2+ release by inositol 1,4,5-trisphosphate. The results suggest that the increase in [Ca2+]i caused by PDGF in Swiss 3T3 fibroblasts is due to the influx of external Ca2+ through dihydropyridine sensitive Ca2+ channels, as well as release of internal Ca2+.
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PMID:Contribution of external and internal Ca2+ to changes in intracellular free Ca2+ produced by mitogens in Swiss 3T3 fibroblasts: the role of dihydropyridine sensitive Ca2+ channels. 247 47

Changes of cytosolic free Ca2+ [( Ca2+]i) in response to receptor activation were studied at the single cell level by using digital imaging fluorescence microscopy of fura-2-loaded primary cultured hepatocytes. In response to phenylephrine and vasopressin, individual hepatocytes displayed dose-dependent oscillations of [Ca2+]i similar to those observed in aequorin-injected hepatocytes by Woods et al. (Woods, N. M., Cuthbertson, K. S. R., and Cobbold, P. H. (1986) Nature 329, 719-721). With increasing agonist concentration, the frequency of oscillations increased and the latent period decreased. For a given cell, peak [Ca2+]i was independent of applied agonist concentration. However, there was considerable variation from cell to cell in the absolute value of peak [Ca2+]i. There was also marked intercellular heterogeneity in the latency, frequency, and overall pattern of the Ca2+ responses. Such asynchronous responses can be explained in part by the apparent differential agonist sensitivity of individual cells for latency and frequency. At high doses, phenylephrine maintained an oscillatory pattern, whereas vasopressin produced a complex mixture of spiking and sustained [Ca2+]i responses. Vasopressin and phenylephrine also displayed differently shaped [Ca2+]i oscillations at submaximal doses, due primarily to a slower rate of decay with vasopressin. Despite the large cell-cell variation in the patterns of [Ca2+]i oscillations, successive readditions of the same agonist elicited identical cell-specific patterns of oscillation. In the absence of extracellular Ca2+ the frequency but not the magnitude of [Ca2+]i oscillations was decreased. Buffering of [Ca2+]i by increasing the fura-2 load of single hepatocytes also decreased the frequency of oscillations without affecting the peak Ca2+ level. These data provide further support for the importance of frequency modulation in agonist-induced Ca2+ responses and suggest that Ca2+ itself plays an important role in regulating the frequency of [Ca2+]i oscillations. Furthermore, the data demonstrate a broad heterogeneity in hepatocyte [Ca2+]i oscillations which may underlie the nonoscillatory responses of cell populations.
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PMID:Characterization of cytosolic calcium oscillations induced by phenylephrine and vasopressin in single fura-2-loaded hepatocytes. 279 47

The kinetics of agonist-induced increases in cytosolic free Ca2+ have been measured in single A10 vascular smooth muscle cells and rat hepatocytes using fluorescent videomicroscopy with fura-2 as a Ca2+ indicator. At high agonist concentrations there was no difference in the kinetics of the Ca2+ transient measured in vasopressin-stimulated single A10 cells or in cell populations. However, stimulation of single A10 cells with concentrations of vasopressin below 0.5 nM produced characteristic Ca2+ transients composed of two distinct peaks. The two peaks appeared to represent a temporal separation between release of intracellular Ca2+ and influx of extracellular Ca2+. The double transient was not observed in single rat hepatocytes stimulated with low concentrations of vasopressin or phenylephrine. In both A10 cells and hepatocytes, the initial rate of increase in Ca2+ concentrations in response to submaximal agonist concentrations was faster in single cells than in cell populations. This difference was due to asynchrony of the cellular response, where there was a latent period of variable length before onset of a rapid increase in Ca2+ concentration. The duration of the latent period was dependent on the agonist concentration, higher concentrations of agonist giving a reduced latent period. The hormone-stimulated Ca2+ transient measured in single hepatocytes with fura-2 was different from the series of transient spikes as previously reported using aequorin as the Ca2+ indicator, suggesting that fura-2 and aequorin may report different aspects of the Ca2+ response in stimulated cells. Collectively, these results demonstrate that measurement of Ca2+ transients in single cells provide novel information concerning the nature of the Ca2+ transient that is not apparent from studies with cell populations.
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PMID:Novel kinetics of single cell Ca2+ transients in stimulated hepatocytes and A10 cells measured using fura-2 and fluorescent videomicroscopy. 335 Aug 5

The effect of the phorbol esters phorbol 12-myristate 13-acetate (TPA) and phorbol 12,13-dibutyrate (PDB) on changes in free Ca2+ concentration ([Ca2+]i) in single rat hepatocytes, microinjected with the photoprotein aequorin, were investigated. [Arg8]vasopressin and phenylephrine induced a series of repetitive [Ca2+]i transients. Phorbol esters inhibited the alpha 1-adrenoceptor-induced response; sub-nanomolar concentrations decreased the transient frequency, and higher concentrations abolished the transients. The inhibitory effect of PDB was readily reversible. Phorbol esters were less effective in decreasing the frequency of [Arg8]-vasopressin-induced transients, and the inhibition could be overcome by high [Arg8]vasopressin concentrations.
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PMID:Phorbol-ester-induced alterations of free calcium ion transients in single rat hepatocytes. 347 80

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