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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cellular signaling mechanism of adenosine action has been studied in highly purified populations of cultured cells from the rabbit medullary thick ascending limb of Henle's loop (MTAL). The effects of specific adenosine-receptor agonists 5'(N-ethylcarboxamido)adenosine (NECA; A2) and N6-cyclohexyladenosine (CHA; A1) on basal and hormone-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) production, cytosolic free calcium concentration ([Ca2+]f), and formation of inositol phosphates were examined. Production of cAMP was stimulated by high doses of NECA and was inhibited by low doses of CHA. The inhibitory effect of CHA was observed in cells in which cAMP production was first stimulated with vasopressin, isoproterenol, prostaglandin E2 (10(-6) M), or calcitonin (100 ng/ml) and was abolished by pretreating the cells with pertussis toxin (PT) for 12-20 h. A highly selective adenosine A1 antagonist, 8-cyclopentyl-1,3-dipropylxanthine (CPX), also abolished the inhibitory effect of CHA. Both NECA and CHA induced a rapid (10 s) and transient increase in [Ca2+]f, and this was associated with an increased inositol trisphosphate (IP3) production. Single-cell [Ca2+]f measurements indicated that all MTAL cells responded to CHA. The removal of extracellular Ca2+ failed to inhibit these responses. Pretreatment with PT or administration of CPX abolished both the increase in [Ca2+]f and the formation of IP3 occurring in response to CHA and NECA. Our results suggest that both adenylate cyclase-coupled inhibitory (A1) and stimulatory (A2) adenosine receptors are present in pure populations of cultured MTAL cells. Moreover, activation of an adenosine receptor coupled to a PT substrate results in the increased production of inositol phosphate and elevation of [Ca2+]f.
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PMID:Effects of adenosine on cAMP production and cytosolic Ca2+ in cultured rabbit medullary thick limb cells. 184 67

Intracellular Ca (Cai) is an inhibitory second messenger in renin secretion, and it has been hypothesized that some first messengers--especially angiotensin II [A-II] and antidiuretic hormone [ADH], and possibly A1-adenosine receptor antagonists as well--increase Cai and thereby inhibit renin secretion by causing the release or mobilization of Ca from intracellular sites of sequestration. The present experiments were designed to test this hypothesis, by using 3,4,5-trimethoxybenzoic acid 8-(diethylamino)-octyl ester (TMB-8), a putative antagonist of Ca release from intracellular sequestration sites. The rat renal cortical slices preparation was used. Basal renin secretory rate was unaffected by 1 and 10 microM TMB-8, but more than doubled in response to 100 microM TMB-8. Basal renin secretory rate was inhibited by A-II (1 microM), by ADH (200 units/1), by an A1-adenosine receptor agonist (N6-cyclohexyladenosine, or CHA; 0.5 microM), and by an alpha-adrenergic agonist (methoxamine; 10 microM). Only the inhibitory effect of methoxamine was blocked by 1 and 10 microM TMB-8, but these concentrations had no effect on basal secretory rate. At 100 microM, TMB-8 blocked the inhibitory effects of ADH as well as of methoxamine, but failed to block the inhibitory effects of CHA and A-II. However, these observations cannot be taken as evidence that methoxamine and ADH, but not CHA and A-II, inhibit renin secretion by a mechanism involving release of Ca from intracellular sequestration sites, because 100 microM TMB-8 clearly had non-specific effects. Among them, it completely blocked the inhibitory effect of K-depolarization on renin secretion. Collectively, at least three separate actions of TMB-8 must be invoked to explain the present results. Likely candidates are an Na-channel blocking effect and a Ca channel blocking effect in addition to antagonism of the release of Cai.
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PMID:Calcium-dependent inhibition of renin secretion: TMB-8 is a non-specific antagonist. 192 44

The adenosine analogue 2-chloroadenosine (2-CA) is often used to determine the biologic effects of adenosine because 2-CA is less susceptible to degradation than adenosine. We studied the effects of 2-CA on primary cultures of rat inner medullary collecting ducts because there is good evidence that adenosine can influence cell function through its effects on second messengers. 2-CA inhibited Na+ transport across the apical membrane and increased cAMP content of the cells. The major adenosine receptors in these cells appear to be the stimulatory (A2) type. Stimulation of cAMP by 2-CA was more potent when applied to the apical membrane than to the basolateral membrane, an effect opposite to that of vasopressin. These results imply that adenosine receptors are more numerous or more effective on the apical membrane than on the basolateral membrane. Inhibition of Na+ transport was probably not mediated by an adenosine receptor as evidenced by (i) a lack of effect of adenosine and other adenosine analogues on Na+ transport; (ii) a lack of effect of nonmetabolizable cyclic nucleotides on Na+ transport; and (iii) a clear discrepancy in the temporal course of 2-CA effects on a second messenger system (cAMP) and 2-CA inhibition of Na+ transport. Dipyridimole, an inhibitor of adenosine transport, also reduced Na+ transport. Taken together, the data suggest that 2-CA inhibits Na+ transport by interfering with adenosine transport or metabolism.
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PMID:Inhibition of Na transport by 2-chloroadenosine: dissociation from production of cyclic nucleotides. 196 11

The widely used phosphodiesterase inhibitor MIX (1-methyl 3-isobutyl xanthine) blocked insulin antagonism of cAMP-stimulated glycogenolysis in rat hepatocytes but other phosphodiesterase inhibitors including Ro 20-1724 had no effect. Dose-response curves for MIX potentiation of cAMP-stimulated glycogenolysis and for MIX inhibition of the effects of insulin on cAMP-stimulated glycogenolysis suggested that at higher concentrations (250 microM) MIX may act at a site other than phosphodiesterase inhibition. MIX, at 250 microM, attenuated the insulin antagonism of glucose release stimulated by 8-bromo-cAMP, an extremely poor substrate for phosphodiesterase; other phosphodiesterase inhibitors did not. The possibility that MIX acts as an adenosine antagonist interfering with a postulated role for adenosine in insulin action was examined using N6-phenylisopropyladenosine (PIA), an Ra adenosine receptor agonist which increases hepatic cAMP levels. MIX inhibited insulin antagonism of PIA-stimulated glycogenolysis under conditions where it did not act as an adenosine antagonist (MIX and Ro 20-1724 both increased the response to PIA equally). The effect of concanavalin A on cAMP-stimulated glycogenolysis was antagonized by MIX, suggesting a post-receptor site of action for MIX. MIX paradoxically increased lactate production in the presence of 8-bromo-cAMP, reminiscent of the reported actions of calcium mobilizing hormones on lactate formation in fed hepatocytes. Cytosolic free Ca2+, as measured in Quin 2-loaded cells, was increased by MIX. In cells depleted of calcium, MIX no longer blocked insulin antagonism of 8-bromo-cAMP-stimulated glucose release, suggesting that MIX may function through an insulin-insensitive release of calcium. MIX greatly potentiated the stimulation of glycogenolysis by phenylephrine but did not alter the response to vasopressin. The relationship of this effect of MIX to the mechanism of insulin action and the ability of insulin to antagonize only alpha-adrenergic responses and not those of vasopressin is discussed.
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PMID:Methylisobutylxanthine blocks insulin antagonism of cAMP-stimulated glycogenolysis at a site distinct from phosphodiesterase. Evidence favoring an insulin-insensitive calcium release mechanism. 241 37

The regulation of cytosolic calcium in LLC-PK1 cells by various agonists was characterized. Arginine vasopressin (AVP, 100 nM) rapidly increased cytosolic calcium (Caf) measured with fura-2 from a basal level of 65 +/- 5 to 516 +/- 102 nM followed by a return to a plateau level of 128 +/- 18 nM. Similar responses to 100 nM lysine vasopressin were seen. AVP also increased adenosine 3',5'-cyclic monophosphate (cAMP) as previously documented for these cells. A V2-selective AVP analogue increased cAMP without affecting Caf, whereas two V1-receptor antagonists prevented the Caf response to AVP without altering the cAMP response. Increasing cellular cAMP with forskolin, cholera toxin, or stable cAMP analogues did not affect Caf or the response of Caf to AVP. Both adenosine and ATP produced large Caf transients at concentrations of 1-10 microM in both calcium-containing media and after acute chelation of medium Ca with ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA). The A1-selective adenosine analogue, (R-phenyl-isopropyl)-adenosine, and the A2-selective analogue, 5'-(N-ethyl)-carboxamido-adenosine, both produced Caf responses similar to adenosine. The Caf responses to adenosine and its analogues but not to ATP were blocked by the adenosine receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine. Islet-activating protein, pertussis toxin, inhibited the Caf response to adenosine and enhanced the cAMP response to AVP. Responses to all agonists were demonstrable in greater than 80% of single cells studied by microfluorometry, and individual cells responded to multiple agonists. These studies indicate that the Caf and cAMP responses to AVP in the LLC-PK1 cell line involve separate receptors, and they document the presence in this cell line of at least two types of receptors for exogenous purines.
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PMID:Alterations of cytosolic calcium in LLC-PK1 cells induced by vasopressin and exogenous purines. 254 21

To test the possibility that adenosine may be involved in a urine concentrating mechanism, effects of 1-phenylisopropyladenosine (PIA) on cyclic AMP levels have been examined in medullary thick ascending limb (mTAL) and medullary collecting duct (MCD) isolated from the rat. Low and high doses of PIA did not alter basal cyclic AMP levels in both segments. However, PIA depressed vasopressin-dependent cyclic AMP production in MCD in a dose-dependent manner: this effect of PIA was maximum at 10(-6) M. 8-Phenyltheophylline, a competitive inhibitor for adenosine receptor, completely abolished this inhibitory effect of PIA. This finding may suggest an existence of adenosine receptor on the MCD. In mTAL, PIA also suppressed vasopressin-mediated cyclic AMP generation. The present study shows an interaction between PIA and vasopressin in both MCD and mTAL. This interaction may contribute in part to urinary-concentrating disturbance in renal ischemia.
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PMID:Effect of phenylisopropyladenosine on vasopressin-dependent cyclic AMP generation in defined nephron segments from rat. 282 7

Vascular effects of theophylline and enprofylline, a novel xanthine derivative lacking adenosine receptor antagonism, were studied comparatively in tubular preparations of small human placental arteries mounted in an isometric myograph. Both xanthines produced concentration-dependent (10(-7)-3 X 10(-3) M) relaxation of arteries contracted by PGF2 alpha or PGE2 in both normal Ca2+-medium and in Ca2+-depleted medium. Enprofylline was about three times more potent than theophylline. Also in vasopressin-contracted arteries enprofylline was a more potent vasodilator in both media. In contrast the xanthines were equally potent in relaxation of the tonic as well as the phasic part of a K+-induced contraction, but less potent than in relaxation of PG-induced contractions. Propranolol, phentolamine, atropine, indomethacin or tetrodotoxin did not influence the xanthine relaxations. It is concluded that the theophylline-induced relaxation of small human placental arteries is not due to adenosine receptor antagonism. A common important mechanism of action, in which enprofylline is more potent than theophylline, seems to be interference with intracellular Ca2+-binding/mobilisation processes. Some decrease in cellmembrane Ca2+-permeability produced by the xanthines seems to take part in the mechanism of relaxation.
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PMID:Enprofylline and theophylline on small human placental arteries: studies of in vitro effects and mode of action. 399 86

The hormonal responsiveness profile of the cortical collecting duct varies from one species to another. To identify the hormones and agonists that modulate the functions of this tubule segment in the human species, we generated a cell line (HCD) immortalized by SV40 virus. The tubular origin of this cell line was assessed by the expression of collecting duct-specific antigens and the ability of vasopressin to increase by nine-fold cAMP synthesis. Glucagon and adenosine stimulated cAMP synthesis, and atrial natriuretic peptide stimulated cGMP synthesis in a concentration-dependent manner. Bradykinin, adenosine and angiotensin increased intracellular calcium concentration ([Ca2+]i). Because adenosine can regulate tubular functions, we examined its role on glucagon-induced cAMP synthesis. Using adenosine analogs, we demonstrated that HCT cells both expressed adenosine type-2 (A2) receptors which stimulated cAMP production, and adenosine type-1 (A1) receptors linked to [Ca2+]i increase which inhibited glucagon-stimulated cAMP synthesis. The inhibitory effect was abolished by pertussis toxin, and was neither due to [Ca2+]i increase nor to protein kinase C activation, which indicated that some A1 adenosine receptors were directly negatively coupled to adenylyl cyclase. These results suggest that adenosine can modify human cortical collecting duct functions in opposite ways according to the adenosine receptor activated.
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PMID:Role of adenosine on glucagon-induced cAMP in a human cortical collecting duct cell line. 763 60

The effects of adenosine on plasma arginine vasopressin (AVP) concentrations were determined in chronically catheterized fetal sheep (> 0.8 term). Infusion of adenosine [0.35 +/- 0.01 (SE) mg.min-1.kg-1] into the inferior vena cava of six fetuses caused a transient fall in arterial PO2 (by approximately 3 Torr), a slight reduction in arterial pH, and a 5- to 6-mmHg decrease in diastolic pressure without significantly affecting systolic or mean arterial values. A lower rate of infusion (0.19 +/- 0.01 mg.min-1 x kg-1) in five fetuses had virtually no effect on arterial blood gases, pH, or arterial pressures. Both the low- and high-dose adenosine infusions significantly increased fetal plasma AVP concentrations (1.7 +/- 0.2 to 25 +/- 7 pg/ml and 1.6 +/- 0.1 to 54 +/- 8 pg/ml, respectively). Intravenous infusion of papaverine lowered fetal diastolic and mean arterial pressures by approximately 8 mmHg but had no significant effect on plasma levels of AVP. During an hour of isocapnic hypoxia (arterial PO2 12-13 Torr), fetal plasma AVP levels increased from 1.7 +/- 0.2 to 40 +/- 6 pg/ml. Intra-arterial infusion of the adenosine receptor antagonist 8-(p-sulfophenyl)-theophylline significantly blunted the hypoxia-induced rise in plasma AVP concentrations to a maximum mean level of 11 +/- 6 pg/ml. These results indicate that 1) adenosine causes a dose-dependent increase in plasma AVP concentrations and 2) a hypoxia-induced rise in fetal adenosine levels triggers vasopressin release.
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PMID:Adenosine mediates hypoxic release of arginine vasopressin in fetal sheep. 830 44

Freshly drawn blood samples from seven female and seven male healthy donors were used. Arginine8-vasopressin (AVP) effects on platelet aggregation and serotonin (5-HT) release were examined in adenosine-depleted platelet-rich plasma (PRP) and PRP containing normal amounts of plasma adenosine. No significant differences in the plasma adenosine levels were noted between female (208 +/- 90 nM) and male (239 +/- 85 nM) subjects, but significant differences in AVP-induced platelet aggregation and 5-HT release were noted between female and male subjects. In adenosine-depleted PRP, platelets from most female donors could be aggregated irreversibly at low levels of AVP (18 mU/ml, or 42 nM), whereas platelets from most male donors responded poorly and caused only reversible aggregation at much higher AVP levels (108-720 mU/ml PRP or 252-1,680 nM). In contrast, in PRP containing normal amounts of adenosine, AVP response to induce platelet aggregation was much weaker, demonstrating that adenosine acts as a natural modulator of AVP actions. Theophylline and a relatively selective A2 antagonist DMPX (3,7-dimethyl-1-propargylxanthine) attenuate the plasma adenosine effects causing potentiation in AVP activity on platelet aggregation. These studies suggest that agents that can increase plasma adenosine levels (e.g., inhibitors of nucleoside transport and adenosine deaminase), or adenosine receptor antagonists, may have potential therapeutic uses in modulation of AVP actions in the body. Furthermore, the human platelet serves as a suitable pharmacologic model to study interactions between biologically produced adenosine and AVP.
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PMID:Modulation of vasopressin actions on human platelets by plasma adenosine and theophylline: gender differences. 833 6


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