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)

Kidney function is regulated by several hormones which act through adenylate cyclase-cyclic AMP system. The present study was undertaken to investigate cyclic AMP- and cyclic GMP-phosphodiesterase (cAMP-PDE and cGMP-PDE respectively) activities in the rat kidney, and also the effect of several hormones affecting the kidney function on these enzyme activities in vitro. Rat kidneys were separated into cortex and medulla. These were homogenized in 50 mM Tris-HCl buffer, pH 7.5, containing 0.32 M sucrose and fractionated by centrifugation. PDE activity was measured in all fractions, using the two-step assay system. A low substrate concentration (0.5 microM) was used, unless otherwise stated. Substantial activity was present in all of the fractions and most of the activity existed in the soluble fraction (105000 X g supernatant). Cyclic GMP-PDE activity was dominant in both cortex and medulla. The rat kidney contained two forms of cAMP-PDE, one of which had a Km of 2.0 X 10(-4) M and another which had a low Km of 2.5 X 10(-5) M, and one form of cGMP-PDE with a Km of 2.5 X 10(-5) M. These cAMP-PDE and cGMP-PDE were purified by Sepharose-6B column chromatography. Cyclic AMP-PDE activity was found in a broad area associated with two peaks and cGMP-PDE activity had one peak corresponding to the same peak as the high molecular weight cAMP-PDE. Calmodulin was eluted after the peak of cGMP-PDE activity. Both cAMP-PDE and cGMP-PDE activities were inhibited by calcium ion at a concentration of more than 5.0 X 10(-4) M. Cyclic GMP-PDE activity was not activated by calmodulin in the presence of enough calcium ion. The effect of 1 alpha, 25(OH)2 Vit D3, parathyroid hormone (PTH), antidiuretic hormone (ADH), calcitonin (CT), angiotensin II, and trichlormethiazide on the partially purified cAMP-PDE and cGMP-PDE activities were examined. 1 alpha, 25(OH)2 Vit D3 activated cAMP-PDE activity and did not affect cGMP-PDE activity. The concentrations of 1 alpha, 25(OH)2 Vit D3 producing 50% activation of cAMP-PDE activity were 5.0 X 10(-11) M (cortex) and 6.7 X 10(-10) M (medulla). CT and ADH inhibited both cAMP-PDE activities. The concentrations of CT producing 50% inhibition of cAMP-PDE activity were 4.0 X 10(-5) M (cortex) and 3.3 X 10(-7) M (medulla), and those of cGMP-PDE activity were 1.0 X 10(-5) M (cortex) and 1.0 X 10(-4) M (medulla). Concerning ADH, the concentrations required for 50% inhibition of cAMP-PDE activity were 5.3 X 10(-6) M (cortex) and about 1.0 X 10(-3) M (medulla), and those of cGMP-PDE activity were 5.3 X 10(-3) M (cortex) and 5.3 X 10(-8) M (medulla).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Effect of several hormones on cyclic 3',5'-nucleotide phosphodiesterase in rat kidneys]. 631 6

It has been suggested recently that calmodulin acts as an intracellular "Ca-receptor," and that many Ca-dependent cellular activities are mediated in some manner by Ca-calmodulin. The renin-secretory activity of juxtaglomerular cells appears to be inversely related to intracellular Ca concentration (Ca); if Ca-calmodulin is the mediator in the secretory process, it follows that secretory rate should be inversely related to Ca-calmodulin activity. The purpose of these experiments was to determine the effects of trifluoperazine, an inactivator of Ca-calmodulin, on renin secretion of rat kidney slices. Over the range 10(-6) to 10(-4) M, trifluoperazine produced a concentration-dependent increase in renin release. As assessed by lactate dehydrogenase release, the trifluoperazine-induced increase in renin release cannot be attributed to increased cell membrane permeability to proteins. Thus, trifluoperazine stimulated renin secretion in a concentration-dependent manner. This is consistent with an inverse relation between Ca-calmodulin activity and renin secretion. However, in the presence of trifluoperazine, isoproterenol still stimulated and antidiuretic hormone, angiotensin II, high extracellular K concentration, ouabain and vanadate still inhibited renin secretion. Provided these stimulatory and inhibitory effects are associated with decreased and increased Ca, respectively, these observations are inconsistent with the hypothesis that the effects of Ca, on renin secretion are mediated by changes in Ca-calmodulin activity, since increases in Ca promote rather than attenuate the binding of trifluoperazine to calmodulin. It is concluded that trifluoperazine-stimulated renin secretion is mediated by a decrease in Cai produced by inhibition of Ca influx and/or stimulation of Ca efflux and/or sequestration.
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PMID:Effects of trifluoperazine on renin secretion of rat kidney slices. 633 84

The role of Ca2+ in the stimulation of prostaglandin (PG) biosynthesis by vasopressin was investigated in rabbit renal-medullary interstitial cells in tissue culture. A decrease in extracellular Ca2+ to less than 25 microM did not affect basal PGE2 production, but inhibited PGE2 synthesis stimulated by vasopressin, angiotensin and the Ca2+ ionophore A23187 by 55, 65 and 95% respectively. The study of vasopressin-stimulated PGE2 synthesis in the absence of extracellular Ca2+ demonstrated that: (a) hormone-sensitive phospholipase activity was inhibited as measured by [3H]arachidonic acid release; (b) the maximal rate of vasopressin-stimulated activity was decreased without a change in the vasopressin concentration that evoked half-maximal stimulation of PGE2 synthesis; and (c) the Ca2+-channel blocker verapamil and the Ca2+-calmodulin antagonist trifluoperazine mimicked the inhibitory effects of removing extracellular Ca2+. These agents had no effect in the absence of Ca2+. In contrast with their effects on vasopressin action, neither the removal of extracellular Ca2+ nor the addition of verapamil altered the ability of hyperosmotic mannitol to increase PGE2 synthesis. These data are consistent with the hypothesis that a component of vasopressin-stimulated PGE2 biosynthesis involves the influx of extracellular Ca2+, followed by the activation of Ca2+-calmodulin-stimulated phospholipase(s).
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PMID:The role of calcium in the stimulation of prostaglandin synthesis by vasopressin in rabbit renal-medullary interstitial cells in tissue culture. 643 Feb 78

Isolated rat hepatocytes were incubated in a medium containing 0.1 mM [32P]phosphate (0.1 mCi/ml) before exposure to epinephrine, glucagon or vasopressin. 32P-labeled glycogen synthase was purified from extracts of control or hormone-treated cells by the use of specific antibodies raised to rabbit skeletal muscle glycogen synthase. Analysis of the immunoprecipitates by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate indicated that a single 32P-labeled polypeptide, apparent Mr 88000, was removed specifically by the antibodies and corresponded to glycogen synthase. Similar electrophoretic analysis of CNBr fragments prepared from the immunoprecipitate revealed that 32P was distributed between two fragments, of apparent Mr 14000 (CB-1) and 28000 (CB-2). Epinephrine, vasopressin or glucagon increased the 32P content of the glycogen synthase subunit. CB-2 phosphorylation was increased by all three hormones while CB-1 was most affected by epinephrine and vasopressin. These effects correlated with a decrease in glycogen synthase activity. From studies using rat liver glycogen synthase, purified by conventional methods and phosphorylated in vitro by individual protein kinases, it was found that electrophoretically similar CNBr fragments could be obtained. However, neither cyclic-AMP-dependent protein kinase nor three different Ca2+-dependent enzymes (phosphorylase kinase, calmodulin-dependent protein kinase, and protein kinase C) were effective in phosphorylating CB-2. The protein kinases most effective towards CB-2 were the Ca2+ and cyclic-nucleotide-independent enzymes casein kinase II (PC0.7) and FA/GSK-3. The results demonstrate that rat liver glycogen synthase undergoes multiple phosphorylation in whole cells and that stimulation of cells by glycogenolytic hormones can modify the phosphorylation of at least two distinct sites in the enzyme. The specificity of the hormones, however, cannot be explained simply by the direct action of any known protein kinase dependent on cyclic nucleotide or Ca2+. Therefore, either control of other protein kinases, such as FA/GSK-3, is involved or phosphatase activity is regulated, or both.
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PMID:Control of glycogen synthase phosphorylation in isolated rat hepatocytes by epinephrine, vasopressin and glucagon. 643 31

Treatment with the calcium ionophore A23187 on either the serosal or mucosal sides of frog skin, strongly inhibits the hydrosmotic response to vasopressin. On the contrary, the hydrosmotic response to 8-br-cAMP is not affected by treatment with the A23187. Trifluoperazine, a drug which inhibits the Ca2+-calmodulin complex, selectively inhibits vasopressin-induced water transport. Collectively, our results suggest that an increase in the intracellular concentration of Ca2+, obtained by treatment with the ionophore A23187, interferes with a pre-cAMP step of the hydrosmotic response to the antidiuretic hormone. Calcium ions could regulate adenyl-cyclase activity and consequently intracellular levels of cAMP. This effect may probably involve calmodulin.
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PMID:Evidence for the role of calcium in the hydrosmotic response to antidiuretic hormone in frog skin. 644 24

Forskolin is a unique diterpene that may directly activate the catalytic subunit of adenylate cyclase. We therefore examined the effect of 50 microM forskolin on osmotic water permeability in rabbit cortical collecting tubules perfused in vitro. Forskolin increased net volume flux (Jv, from 0.30 to 1.22 nl/mm/min, P less than 0.02) in all tubules. The hydro-osmotic effect of forskolin was similar with respect to magnitude and time course to that produced by a maximal dose (250 microU/ml) of arginine vasopressin. An additive effect on Jv and Lp was not observed when maximal concentrations of forskolin and arginine vasopressin were given simultaneously. The compound d(CH2)5Tyr(Et) VAVP, which noncompetitively inhibits the vasopressin receptor, significantly reduced collecting tubular hydro-osmotic response to arginine vasopressin. In contrast, the hydro-osmotic response to forskolin was maintained in the presence of d(CH2)5 Tyr(Et)VAVP. However, the hydro-osmotic response to forskolin could be inhibited by 1.0 microM guanine 5'-(beta,gamma-imido) triphosphate (GppNHp) and by the calmodulin inhibitor N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7). These results demonstrate that forskolin exerts an hydro-osmotic effect in the mammalian nephron which occurs independent of the vasopressin receptor. Guanine nucleotide regulatory proteins may modulate the osmotic water permeability effect of forskolin. Finally, calmodulin is required for full expression of the effect of forskolin to increase osmotic water flux.
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PMID:Forskolin increases osmotic water permeability of rabbit cortical collecting tubule. 654 43

It has recently been demonstrated that an established cell line from pig kidney, LLC-PK1, is a useful model for the study of vasopressin-sensitive adenylate cyclase (Roy, C., and Ausiello, D. A. (1981) J. Biol. Chem. 256, 3415-3422; Roy, C., Hall, D., Karish, M., and Ausiello, D. A. (1981) J. Biol. Chem. 256, 3423-3427). The present study on the regulation of this enzyme has led to the demonstration of the modulation of vasopressin-stimulated adenylate cyclase by Ca2+-calmodulin. The characteristics of calmodulin regulation were similar to those described for other enzymes: (a) activation required micromolar quantities of free Ca2+; (b) maximal enzyme rates were altered but not the Km for hormone activation; (c) activity was inhibitable by trifluoperazine; and (d) activation was dependent on the Mg2+ concentration. These findings should help to define the mechanisms of action of several agents known to alter vasopressin-sensitive adenylate cyclase and cell Ca2+ content.
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PMID:Regulation of vasopressin-sensitive adenylate cyclase by calmodulin. 727 76

In continuation of our previous studies we have investigated some aspects of the hormonal control of glutamine metabolism in isolated rat hepatocytes. (1)Catecholamines, angiotensin II and vasopressin stimulate gluconeogenesis from glutamine more than 2-fold. These effects require the presence of Ca2+ in the incubation medium. (2) The phenothiazine, trifluoperazine, a purported specific inhibitor of calmodulin, completely blocks the stimulation by catecholamines without affecting the response to the other two hormones. (3) The effectiveness of trifluoperazine in preventing the stimulation of gluconeogenesis by catecholamines was dependent on the concentrations of both the hormones and the inhibitor. (4) Trifluoperazine, at concentrations that prevent stimulation by epinephrine of gluconeogenesis, was as effective as phentolamine in blocking the binding of [3H]epinephrine to intact hepatocytes. (5) These studies support the view (Blackmore, P.F., El-Refai, M.F., Dehaye, J.-P., Strickland, W.G., Haghes, B.P. and Exton, J.H. (1981) FEBS Lett. 123, 245--248) that inhibition by trifluoperazine of alpha-adrenergic stimuli does not necessarily mean that calmodulin is involved in post-receptor events.
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PMID:Effect of trifluoperazine on the stimulation by Ca2+-dependent hormones of gluconeogenesis from glutamine in isolated hepatocytes. 729 8

In GN4 rat liver epithelial cells, angiotensin II (Ang II) and other agonists which activate phospholipase C stimulate tyrosine kinase activity in a calcium-dependent, protein kinase C (PKC)-independent manner. Since Ang II also produces a proliferative response in these cells, we investigated downstream signaling elements traditionally linked to growth control by tyrosine kinases. First, Ang II, like epidermal growth factor (EGF), stimulated AP-1 binding activity in a PKC-independent manner. Because increases in AP-1 can reflect induction of c-Jun and c-Fos, we examined the activity of the mitogen-activated protein (MAP) kinase family members Erk-1 and -2 and the c-Jun N-terminal kinase (JNK), which are known to influence c-Jun and c-Fos transcription. Ang II stimulated MAP kinase (MAPK) activity but only approximately 50% as effectively as EGF; again, these effects were independent of PKC. Ang II also produced a 50- to 200-fold activation of JNK in a PKC-independent manner. Unlike its smaller effect on MAPK, Ang II was approximately four- to sixfold more potent in activating JNK than EGF was. Although others had reported a lack of calcium ionophore-stimulated JNK activity in lymphocytes and several other cell lines, we examined the role of calcium in GN4 cells. The following results suggest that JNK activation in rat liver epithelial cells is at least partially Ca(2+) dependent: (i) norepinephrine and vasopressin hormones that increase inositol 1,4,5-triphosphate stimulated JNK; (ii) both thapsigargin, a compound that produces an intracellular Ca(2+) signal, and Ca(2+) ionophores stimulated a dramatic increase in JNK activity (up to 200-fold); (iii) extracellular Ca(2+) chelation with ethylene glycol tetraacetic acid (EGTA) inhibited JNK activation by ionophore and intracellular chelation with 1,2-bis-(o-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid tetraacetoxymethyl-ester (BAPTA-AM) partially inhibited JNK activation by Ang II or thapsigargin; and (iv) JNK activation by Ang II was inhibited by pretreatment of cells with thapsigargin and EGTA, a procedure which depletes intracellular Ca(2+) stores. JNK activation following Ang II stimulation did not involve calmodulin; either W-7 nor calmidizolium, in concentrations sufficient to inhibit Ca(2+)/calmodulin-dependent kinase II, blocked JNK activation by Ang II. In contrast, genistein, in concentrations sufficient to inhibit Ca(2+)-dependent tyrosine phosphorylation, prevented Ang II and thapsigargin-induced JNK activation. In summary, in GN4 rat liver epithelial cells, Ang II stimulates JNK via a novel Ca(2+)-dependent pathway. The inhibition by genistein suggest that Ca(2+)-dependent tyrosine phosphorylation may modulate the JNK pathway in a cell type-specific manner, particularly in cells with a readily detectable Ca(2+)-regulated tyrosine kinase.
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PMID:Angiotensin II stimulates calcium-dependent activation of c-Jun N-terminal kinase. 756 68

In the present study, we examined the effect of vasopressin (AVP) on phosphatidylcholine-hydrolyzing phospholipase D activity in primary cultured rat aortic smooth muscle cells. AVP stimulation of choline formation was dose dependent. The time-course was quite different from those of inositol phosphates. The effect of AVP on the formation of inositol phosphates (EC50 was 3 nM) was more potent than that on the formation of choline (EC50 was 30 nM). 12-O-Tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C (PKC), stimulated the formation of choline. However, 4 alpha-phorbol 12,13-didecanoate, which is inactive for PKC, had little effect. Staurosporine, an inhibitor of protein kinases, which inhibited the TPA-induced formation of choline, had little effect on the AVP-induced formation of choline. Neither calphostin C, a highly specific PKC inhibitor, nor PKC down-regulation with TPA affected AVP-induced formation of choline. A combination of AVP and TPA additively stimulated the formation of choline. The depletion of extracellular Ca2+ by (ethylenebis(oxyethylenenitrilo)tetraacetic acid significantly reduced the AVP-induced formation of choline. W-7, an antagonist of calmodulin, inhibited the AVP-induced formation of choline in a dose-dependent manner. NaF, an activator for GTP-binding protein (G-protein), stimulated the formation of choline. However, the formation of choline by a combination of AVP and NaF was not additive. Pertussis toxin had little effect on the AVP-induced formation of choline.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vasopressin activates phospholipase D through pertussis toxin-insensitive GTP-binding protein in aortic smooth muscle cells: function of Ca2+/calmodulin. 757 93


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