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)

Preincubation of rat liver cells (the C-9 cell line) for 25 min with phenylarsine oxide at levels ranging from 0.06 to 0.6 microM amplifies prostaglandin I2 production when subsequently stimulated by platelet activating factor, lysine vasopressin, bradykinin, thapsigargin, and the Ca2+ ionophore, A-23187, but not that stimulated by exogenous arachidonic acid. The amplification is decreased after preincubation for 25 min with 1.8 microM phenylarsine oxide. Preincubation of mouse lymphoma cells (the WEHI-3 cell line) with phenylarsine oxide at levels ranging from 0.06 to 1.8 microM for 60 min does not affect prostaglandin E2 levels but inhibits leukotriene B4 and C4 production stimulated by the Ca(2+)-ionophore, A-23187. Amplification of prostaglandin production by phenylarsine oxide is reversed 100 times more effectively by 2,3-dimercaptopropanol than by 2-mercaptoethanol. Deesterification of lipids appears to be regulated positively in rat liver cells and leukotriene production negatively in mouse lymphoma cells by phosphorylation of tyrosine.
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PMID:Regulation of arachidonic acid metabolism by phenylarsine oxide. 185 23

We compared responses to calcium ionophore A23187, vasopressin, and substance P in helical strips of dog middle cerebral, basilar, and posterior communicating arteries to obtain a better understanding of humoral control of cerebrovascular tone in different brain regions and its potential impact on mechanisms of cerebral vasospasm. A23187 relaxed these different arterial strips partially precontracted with prostaglandin F2 alpha to a similar extent. Vasopressin produced concentration-dependent relaxation in basilar and posterior communicating arterial strips, whereas middle cerebral arterial strips either contracted or relaxed slightly. Relaxations induced by A23187 and vasopressin were either abolished or converted to contractions by removal of the endothelium. In contrast, the relaxation of cerebral arterial strips to substance P was markedly attenuated but not abolished by endothelium denudation; the remaining relaxation was suppressed by indomethacin. In some cerebral arterial strips with intact endothelium, substance P caused a transient contraction that was reversed to a relaxation by indomethacin or ONO-3708, a prostaglandin antagonist. In arterial strips denuded of endothelium from the same dogs, substance P always produced relaxations. Relaxations of cerebral arterial strips to A23187 and vasopressin appear to be mediated by endothelium-derived relaxing factor. The function of vasopressin receptors in endothelial cells differs markedly in basilar and posterior communicating arteries versus middle cerebral arteries. Substance P-induced relaxations appear to be primarily associated with endothelium-derived relaxing factor and with prostaglandin I2, whereas contractions appear to be mediated by endothelium-derived prostaglandins.
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PMID:Endothelium-dependent and -independent responses to vasodilators of isolated dog cerebral arteries. 246 Sep 77

We compared the effects of three vasoactive peptides (angiotensin II, vasopressin, and bradykinin) and norepinephrine on the production of prostaglandin I2 [prostacyclin (PGI2)] and PGE2 by isolated rat adipocytes. Angiotensin II, vasopressin, and bradykinin stimulated PGI2 production but had minimal or no effect on PGE2 production or triglyceride lipolysis in isolated rat adipocytes, while norepinephrine stimulated PGI2 production, PGE2 production, and triglyceride lipolysis. The arachidonic acid that serves as substrate for PGI2 production in adipocytes in response to the vasoactive peptides appears to be derived from the cellular phospholipids rather than the triglycerides in these triglyceride-laden cells. The adipocyte contains two separate mechanisms for PG production: 1) a catecholamine-stimulated mechanism for the production of PGI2 and PGE2 that is activated concomitantly with triglyceride lipolysis, and 2) a mechanism activated by vasoactive peptides for the stimulation of PGI2 production independent of triglyceride lipolysis and PGE2 production. These mechanisms may have distinct functions.
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PMID:Stimulation of prostacyclin production in isolated rat adipocytes by angiotensin II, vasopressin, and bradykinin: evidence for two separate mechanisms of prostaglandin synthesis. 388 13

6-Ketoprostaglandin E1 effects on rat and rabbit renal adenylate cyclase-cyclic AMP systems were examined. Adenylate cyclase activity was assessed in the 1000 X g fractions prepared from different areas of kidney. 6-Ketoprostaglandin E1 caused a dose-dependent increase in rat cortical and medullary adenylate cyclase activity with 8 x 10(-6) M being the lowest effective concentration. Combinations of maximal stimulatory concentrations of 6-ketoprostaglandin E1 and prostaglandin I2 caused stimulation similar to that seen with either agent alone. In contrast, the combination of either prostaglandin with parathyroid hormone (cortex) or antidiuretic hormone (medulla) resulted in enzyme activity significantly greater than with either agent alone. Similar results were observed in the rabbit. In addition, rabbit cortical and medullary slice cyclic AMP content was increased by 6-ketoprostaglandin E1. Maximal stimulatory effects of 6-ketoprostaglandin E1 on adenylate cyclase activity and cyclic AMP content were similar to prostaglandin I2. Therefore, the similarity in physiologic actions of 6-ketoprostaglandin E1 and prostaglandin I2 may be due to the stimulation of adenylate cyclase by both agents. These prostaglandins and the polypeptide hormones appear to activate different renal adenylate cyclase-cyclic AMP systems.
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PMID:6-Ketoprostaglandin E1 stimulation of rat and rabbit renal adenylate cyclase-cyclic AMP systems. 626 Feb 31

Rat liver cells (the C-9 cell line) are capable of producing, from endogenously liberated arachidonic acid, prostaglandins I2, E2 and F2 alpha. Greater than 95% of these cyclooxygenase products is prostaglandin I2. Arachidonic acid metabolism is stimulated by treatment of the C-9 cells with epidermal growth factor, vasopressin, angiotensin II or thrombin. Stimulation by combined treatments with vasopressin, angiotensin II or thrombin is additive; but each stimulation, when incubated in the presence of epidermal growth factor, is synergistic. These stimulations are dependent on Ca++. They are inhibited by indomethacin and dexamethasone. The cells exhibit homologous, but not heterologous, desensitization to vasopressin and thrombin. The synergistic stimulation by epidermal growth factor and vasopressin is inhibited by prior treatment of the cells with epidermal growth factor.
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PMID:Arachidonic acid metabolism by rat liver cells (the C-9 cell line). 643 71

Responses to angiotensin II, bradykinin and arginine vasopressin were compared in helical strips of canine pulmonary arteries and veins. Angiotensin II contracted the artery but relaxed the vein strip. The artery contraction was augmented by indomethacin and aspirin and was abolished by losartan. The vein relaxation was not affected by endothelium denudation but was abolished by the cyclooxygenase inhibitors, a prostaglandin I2 synthase inhibitor and losartan. The bradykinin-induced artery relaxation was inhibited by endothelium denudation, NG-nitro-L-arginine (L-NA) or indomethacin and abolished by their combined treatment. The vein relaxation produced by bradykinin was endothelium-independent and was abolished by indomethacin. Vasopressin produced a slight relaxation in the arteries, which was abolished by endothelium denudation and L-NA. The vein relaxation produced by vasopressin was abolished by endothelium denudation and combined treatment with L-NA and indomethacin. It may be concluded that (1) activation of angiotensin AT1 receptor subtype in smooth muscle produces contraction and also relaxation due to prostaglandin I2 release; the former predominates over the latter in the artery, whereas only the latter is operative in the vein, (2) the bradykinin-induced relaxation is due to nitric oxide (NO) from the endothelium and prostaglandin I2 from subendothelial tissues in the artery and solely to prostaglandin I2 in the veins, and (3) the vasopressin-induced relaxation is mediated by endothelial NO in the artery, and NO and prostaglandin I2 in the vein.
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PMID:Comparison of responses of canine pulmonary artery and vein to angiotensin II, bradykinin and vasopressin. 749 82

Prostaglandin E2 (PGE2) inhibits vasopressin-stimulated water conductivity (AVP-Lp) and inhibits Na+ reabsorption in the rabbit cortical collecting duct (CCD). Inhibition of Na+ reabsorption is mediated by increased intracellular calcium ion concentration ([Ca2+]i). Prostacyclin (PGI2) has also been shown to inhibit Na+ reabsorption in the CCD. The present studies were designed to examine the effect of the PGI2 agonist, Iloprost (ILP), on AVP-Lp and [Ca2+ in the isolated perfused rabbit CCD and to determine whether ILP activates different receptors than PGE2. ILP and PGE2 each maximally inhibited AVP-Lp equipotently at 10(-7) M. When CCDs were exposed to PGE2 and ILP simultaneously, or if PGE2 was added in the presence of ILP, inhibition of AVP-Lp was additive. Additivity was not observed if the PGI2 agonist, carbaprostacyclin (c-PGI2), was added with ILP, or if the PGE2 agonist, sulprostone, was added with PGE2, or if ILP was added to CCDs preexposed to PGE2. In fura 2-loaded CCD, ILP and PGE2 added separately increased [Ca2+]i. The response to c-PGI2 could be desensitized by prior exposure to ILP. ILP did not cause desensitization to PGE2, but PGE2 could desensitize the CCD to ILP. We conclude that PGI2 inhibits AVP-Lp by activation of a novel IP3 prostacyclin receptor and increases [Ca2+]i by activation of an IP1 prostacyclin receptor in the rabbit CCD. Functional evidence is presented that PGI2 cannot occupy PGE2 receptors and that PGE2 can occupy but cannot activate PGI2 receptors linked to inhibition of AVP-Lp.
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PMID:Rabbit cortical collecting ducts express a novel prostacyclin receptor. 753 Sep 13

We investigated the effect of endothelin-1 on relaxation responses induced by vasodilator substances in canine middle cerebral arteries to better understand regulation of cerebrovascular tone and its potential impact on mechanism of cerebral vasospasm. Endothelin-1 elicited concentration-dependent contractions in helical strips of canine cerebral arteries (EC50; 4.62 x 10(-9) M). Pretreatment with 10(-9) M endothelin-1 significantly reduced endothelium-dependent relaxation elicited by substance P and endothelium-independent relaxations by nitroglycerin, prostaglandin I2, and KCl. Although endothelin-1 in a lower concentration (10(-10) M) did not affect these endothelium-independent relaxations, it did inhibit endothelium-dependent relaxation caused by substance P. A low concentration (10(-10) M) of endothelin-1 also significantly reduced endothelium-dependent relaxation of canine mesenteric arteries induced by acetylcholine. Other vasoconstrictor peptides such as angiotensin-II and vasopressin did not inhibit endothelium-dependent and -independent relaxations. These results indicate that endothelin-1 not only produces cerebral vasoconstriction but also interferes with vasodilator mechanisms and that endothelium-dependent vasodilation is more sensitive to the inhibitory effect of endothelin-1 than endothelium-independent vasodiltion.
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PMID:Suppression of cerebral vasodilation with endothelin-1. 853 97

The present study investigates the effect of angiotensin II and LR-B/081 (-methyl 2-[[4-butyl-2-methyl-6-oxo-5-[[2'-(1H-tetra-zol-5-yl) [1,1'-biphenyl]-4-yl] methyl]-1(6H)-pyrimidinyl] methyl]-3-thiophenecarboxylate), a novel non-peptide angiotensin II receptor antagonist, on both early and late responses in rat vascular smooth muscle cells. Angiotensin II induced a rapid and transient elevation of inositol trisphosphate intracellular levels, triggered the release of both prostaglandin E2 and prostaglandin I2 (EC50 = 21 +/- 3 and 16 +/- 2 nM, respectively), and, in long-term studies, increased leucine and thymidine incorporation. All angiotensin II effects were antagonized by LR-B/081 and losartan, the reference non-peptide angiotensin AT1-selective receptor antagonist, whereas they were unaffected by PD123177 (1-(4-amino-3-methylphenyl)methyl-5-diphenylacetyl-4,5,6,7-tetr ahy dro-1H- imidazo[4,5-c]pyridine carboxylic acid), a non-peptide angiotensin AT2-selective receptor antagonist. LR-B/081 displayed a much higher potency than losartan in inhibiting angiotensin II-induced prostaglandin E2 (IC50 = 0.15 +/- 0.02 and 39 +/- 9 nM, respectively) and prostaglandin I2 release (IC50 = 0.18 +/- 0.04 and 134 +/- 40 nM, respectively) and was also more potent in blocking the increase in protein synthesis (IC50 = 242 +/- 119 nM and 1221 +/- 687 nM, respectively). Moreover, LR-B/081 and losartan blocked the response to angiotensin III but failed to inhibit the prostaglandin release stimulated by vasopressin or the mitogenic effect of serum. LR-B/081 and losartan were devoid of intrinsic properties in the experimental conditions employed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II-induced responses in vascular smooth muscle cells: inhibition by non-peptide receptor antagonists. 856 96

Cellular calcium modulates enzyme activity, cell proliferation, and differentiation. In vascular smooth muscle cells (VSMC), calcium may contribute to increased vascular contractility and structural alterations in both hypertension and atherosclerosis. We investigated the role of calcium in angiotensin II (AII)-induced prostaglandin release and DNA synthesis in VSMC. Prostaglandin levels were determined by radioimmunoassay, and DNA synthesis was determined by the incorporation of [3H]thymidine. AII dose-dependently stimulated the release of prostaglandin E2 and prostaglandin I2, and this effect was synergistically enhanced by the Ca2+ ionophore A23187. Conversely, the AII response was inhibited by EGTA, a chelator of Ca2+ ions and by verapamil and nifedipine, two Ca2+ channel blockers or by incubation of the cells without exogenous Ca2+. TMB-8, an inhibitor of calcium mobilization, also strongly reduced angiotensin response. Similar results were obtained for angiotensin III (AIII) and vasopressin, two other agonists of prostaglandin production. AII- or serum-stimulated DNA synthesis was almost abolished by EGTA, whereas TMB-8, verapamil, and nifedipine had little or no effect. The production of prostaglandins triggered by angiotensins and vasopressin in VSMC is dependent on both intracellular and extracellular calcium, with calcium entering through L-type Ca2+ channels. Extracellular calcium is important for AII and serum mitogenic activity, but L-type Ca2+ channels do not appear to be implicated.
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PMID:Role of calcium in angiotensin II-induced prostaglandin release and DNA synthesis in rat vascular smooth muscle cells. 872 Apr 17

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