EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Salmonella typhimurium, an organism that invades intestinal mucosa but does not elaborate a traditional enterotoxin, evokes ileal secretion by causing alterations in active sodium and chloride transport mechanisms. To evaluate the possibility that these changes in transport might be related to the adenylate cyclase-cyclic AMP or NA+-K+-adenosine triphosphatase (ATPase) systems, mucosal adenylate cyclase, cAMP phosphodiesterase, Na+-K+ and Mg++ ATPase activities, and cAMP concentrations were measured in rabbit ileal loops infected with two strains of S. typhimurium. Strain TML invades the mucosa and evokes fluid secretion whereas strain SL 1027 invades but does not evoke secretion. Cholera toxin-stimulated loops were also studied. When compared to control loops, TML-infected mucosa demonstrated a marked increase in adenylate cyclase activity, in cAMP concentration, and no change in phosphodiesterase or ATPase activities. SL 1027-infected mucosa demonstrated no change in either adenylate cyclase or ATPase activities. Indomethacin pretreatment of cyclase activation. In contrast, indomethacin pretreatment of cholera toxin exposed animals resulted in only a partial reduction of secretion while not altering the stimulation of adenylate cyclase. These results suggest that: (1) S. typhimurium causes ileal secretion by stimulating adenylate cyclase; (2) mucosal invasion alone (SL 1027) is not sufficient to activate adenylate cyclase, and (3) Na+-K+-ATPase does not appear to be involved in salmonella-induced secretion. The mechanism of salmonella activation of adenylate cyclase is unclear but apparently differs from that of cholera toxin in that it is inhibited by indomethacin. This might be explained by the participation of prostaglandins in the salmonella activation process.
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PMID:Pathogenesis of Salmonella-mediated intestinal fluid secretion. Activation of adenylate cyclase and inhibition by indomethacin. 17 99

The lower O2 tension and more active anerobic metabolism that pertain in the inner medulla (IM) of kidney relative to cortex (C) are well recognized, but there is no evidence that O2 availability constitutes a limiting or regulatory factor in IM metabolism or function. In the present in vitro study, we examined the effects of O2 on adenosine 3',5'-monophosphate (cAMP) metabolism in slices of rat renal C and IM. After a 20-min incubation of slices in Krebs Ringer bicarbonate buffer with 95% O2 + 5% CO2 serving as the gas phase, the cAMP content of IM was 6-10 fold higher than that of C in either the presence or absence of 2 mM 1-methyl-3-isobutylxanthine in the incubation media. In slices of IM incubated for 20 min with 1-methyl-3-isobutylxanthine, cAMP was 22.5+/-SE 2.48 pmol/mg wet weight at 95% O2 and 4.37 without O2. Oxygenation of O2-deprived IM increased cAMP twofold in 2 min, an effect fully expressed in 5 min (fivefold increase). Further, cAMP of IM rose progressively and significantly over a range of atmospheric O2 content from 0 to 50% conditions which should reproduce and encompass O2 tensions that pertain in tissues in vivo. By contrast, basal cAMP content of C varied less than twofold in the presence of 95% versus no O2, implying that O2 modulation of cAMP was specific for IM. Indomethacin and meclofenamate, structurally distinct inhibitors of prostaglandin synthesis, both significantly decreased basal cAMP accumulation in oxygenated slices of IM but not of C. Meclofenamate also reduced basal adenylate cyclase activity determined in homogenates prepared from slices of IM which had been incubated at 95% O2. In slices of IM previously exposed to indomethacin or meclofenamate at 95% O2, a maximally effective concentration of exogenous prostaglandin E1 restored cAMP and adenylate cyclase activity to levels which approximated those observed at 95% O2 in the absence of an inhibitor of prostaglandin synthesis. These results suggest that O2 enhancement of cAMP content in IM may be mediated at least in part by local prostaglandins.
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PMID:Modulation of the cyclic AMP content of rat renal inner medulla by oxygen: possible role of local prostaglandins. 18 90

Human synovial fibroblasts in culture respond to bradykinin with a 20-fold increment in intracellular cyclic AMP concentrations, however bradykinin does not directly activate adenylate cyclase activity in a particulate fraction derived from these cells. Bradykinin evokes a release of labeled arachidonic acid and prostaglandins E and F from synovial fibroblasts pre-labeled with 3H-arachidonic acid. Hydrocortisone inhibits the bradykinin induced increment in cyclic AMP and the release of arachidonic acid and prostaglandins E and F from synovial fibroblasts. Indomethacin, which also inhibits the cyclic AMP response to bradykinin, has no effect on the release of arachidonic acid from synovial fibroblasts. Indomethacin does, however, inhibit the quantity of prostaglandins released into the medium. These studies support the hypothesis that bradykinin does not activate human synovial fibroblast adenylate cyclase, but presumably activates a phospholipase whose products in turn result in the synthesis of prostaglandins. These and other investigations also suggest that a product(s) of the prostaglandin pathway causes the increment in cyclic AMP.
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PMID:Hydrocortisone inhibition of the bradykinin activation of human synovial fibroblasts. 19 75

We studied the cAMP response of cultured rat calvaria to parathyroid hormone (PTH) and prostaglandins (PG) in order to test the hypothesis that PTH action is mediated by PG. PTH and PGE1 each caused an 8-fold increase in tissue cAMP during 15 min incubation. There was an additive response to the combination of the two agonists at maximally effective individual concentrations. Similar results were obtained when adenylate cyclase activity in bone homogenates were measured. Calvaria incubated for 60 min with PGE1 were desensitized to further stimulation by PGE1, but responded normally to PTH. Indomethacin, aspirin and phenylbutazone, 10(-5)M, had no effect on the cAMP response to PTH. At millimolar concentration these agents did block the hormone response; however, the response to exogenous PGE1 and the fluoride-sensitive adenylate cyclase were also inhibited. Thus, it appears that the effects of high concentrations of the anti-inflammatory drugs on cAMP formation are non-specific. Our results suggest that receptors in bone for PTH and prostaglandins are separate and independent, and that the cAMP response to PTH is not mediated by prostaglandins.
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PMID:Cyclic AMP production in rat calvaria in vitro: interaction prostaglandins with parathyroid hormone. 19 22

Our hypothesis is that PGs released within the kidney play a role in the modulation of kidney production of Ep. PGs release probably at medullary and/or cortical sites following erythropoietic stimuli such as hypoxic hypoxia, anemic hypoxia, and ischemic hypoxia induced by renal artery constriction increase kidney production of Ep. PGs which are released probably activate a renal cortical adenylate cyclase thereby enhancing the production of intracellular cAMP. This initiates the cascade of events resulting in the production and/or secretion of Ep by the kidney. The endoperoxide analogs and PGE2 have been found to produce a dose-related and Ep-dependent increase in radioiron incorporation into newly formed red blood cells of exhypoxic polycythemic mice. Indomethacin, a potent PG cyclo-oxygenase inhibitior, attenuates Ep production and the appearance of PGE in the renal venous effluent of animals exposed to hypoxic hypoxia and renal artery constriction. Arachidonic acid (C20:4) and PGE2 infusion into the posthypoxic isolated perfused dog kidney produced a significant elevation in Ep titers in the perfusate. The increase in Ep production caused by arachidonate is blocked by indomethacin. It has been previously reported that PGs of the E series stimulate cAMP formation in several tissues. We have found that not only are renal cortical cAMP levels significantly elevated in rats following exposure to hypobaric hypoxia but that dibutyryl cAMP administration produces an increase in hematocrit and circulating red cell mass in normal mice. Our data thus far strongly support the hypothesis that the renal PGs and the cyclic nucleotides are intimately involved in the pharmacologic and/or pathophysiologic control of Ep production. Further work is necessary to determine whether the PGs and cyclic nucleotides are involved in the day-to-day control of Ep production by the mammalian kidney.
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PMID:A concept for the control of kidney production of erythropoietin involving prostaglandins and cyclic nucleotides. 21 36

A short review of the role of cyclic nucleotides and prostaglandins (PGs) in normal and pathological functions of the heart is given. Possible interrelationships of these two regulatory systems have been studied by using spontaneously beating rat atria preparations. Addition of noradrenaline (NA) to the incubate (1 . 10(-6) M) caused an increase in amplitude and frequency which was preceded and parallelled by an elevation of the tissue cAMP level. A transient increase in cGMP and PGE values was also seen. Propranolol (5 . 10(-6) M) abolished the increase in amplitude and frequency as well as in cAMP and PGE concentrations. Indomethacin (1 . 10(-5) M) inhibited the formation of PGE. The increase in cGMP was blocked by phenoxybenzamine. Interchange between beta- and alpha-receptors according as the temperature is lowered has been described earlier. Hypothermia (20 degrees C) had a positive inotropic effect on the atria and increased the tissue cAMP concentration. Loading of the atria caused an increase in cAMP without any effects on cGMP or PGs. Slight hypoxia did not change the cAMP or PG levels, but elevated the cGMP values. Arrhythmias induced by hypo- or hyperpotassemia did not modify the biochemical parameters measured. PGF2alpha (1. 10(-5) M) normalized the atrial rhythm and increased the amplitude without changing cyclic nucleotide or PG levels. PGE1 (1 . 10(-4) M) increased the amplitude of normorhythmic atria and the tissue concentration of cAMP. PGE2 was the only PG tested which stimulated the heart adenylate cyclase in vitro. There seems to be close but complicated relationships between cyclic nucleotides and PGs in the heart.
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PMID:The role of cyclic nucleotides and prostaglandins in heart function. 21 11

Metabolic disturbances may affect inner ear fluid homeostasis in various ways. The membrane sodium-potassium pump must play a role in this homeostasis, and as this pump derives energy from A.T.P. it may also depend somewhat on the presence of prostaglandins, through their stimulatory effect on the adenylate cyclase system. Salicylates suppress prostaglandins; and Indomethacin is even more potent in this respect. Could the temporary ototoxic effects of salicylates and Indomethacin be due to prostaglandin suppression? Further, could energy system problems involving prostaglandins be related to the development of endolymphatic hydrops? These questions prompted this study. Sublethal doses of Indomethacin were given to 14 guinea pigs in order to maximally suppress prostaglandins. Samples of perilymph and endolymph were analyzed for sodium and potassium concentrations and compared to normal controls. No significant differences were found in either acute (two to 24 hour) or chronic (three week) experiments. Light microscopic examination of serially sectioned cochleae in similarly treated animals showed, in a few cases, somewhat questionable distension of Reissner's membrane. Electron microscopy or the organ of Corti did not demonstrate any abnormalities. The study suggests that Indomethacin does not produce significant inner ear electrolyte shifts or endolymphatic distension, at least over the short term.
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PMID:The effects of indomethacin on inner ear fluids and morphology. 65 Jul 23

Lutropin (LH) receptors in rat granulosa cells are expressed by activation of cAMP-dependent protein kinase in response to follitropin (FSH). In the present study, 12-O-tetradecanoylphorbol 13-acetate (TPA) could cause a dose-dependent expression of LH receptors in the presence of insulin, but not in the absence of insulin, as measured by binding of 125I-deglycosylated human choriogonadotropin (DGhCG). The synergistic action of TPA with insulin was achieved at 1 nM and 10 mIU/ml, respectively. The receptor expression induced by this synergistic action was accompanied by cAMP accumulation which was detected after a lag time of 6 h following exposure to TPA. However, a synthetic diacylglycerol and non-protein kinase C activating phorbol derivatives did not mimic the effect of TPA on the receptor expression. In addition, insulin modulated the inhibitory effect of TPA in FSH-induced LH receptor expression, indicating a peculiar action of insulin in the receptor expression. Indomethacin treatment led to a dose-dependent inhibition in the receptor expression in the cells treated with TPA plus insulin more than that in the cells with FSH plus insulin, suggesting that the synergistic action was dependent upon cyclooxygenase and/or phospholipase A2 activity. It was shown by Scatchard analysis of LH receptors and kinetic studies of hCG-stimulated cAMP formation that the synergistic action of TPA with insulin led to expression of functional LH receptors coupled with the adenylate cyclase system in cultured granulosa cells.
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PMID:Tumor-promoting phorbol ester acts synergistically with insulin to induce lutropin receptor expression in rat granulosa cells. 166 32

We have previously shown that stimulation of the Ti/CD3 receptor complex on human T-cells potentiates adenylate cyclase activation by adenosine or forskolin. Anti-CD2 receptor antibodies shared with anti-CD3 antibodies the ability to potentiate dose dependently the adenosine- and forskolin-stimulated cyclic adenosine monophosphate (cAMP) accumulation, whereas stimulation of the CD45 receptor had no effect on cyclase activity. Modulation of the CD3 complex with anti-CD3 antibodies was found to decrease the CD2 receptor effect on adenylate cyclase activity greatly. The possible involvement of CD3-stimulated phospholipase C (PLC) activation on the cAMP potentiation was examined using HPB-ALL cells that express a CD3 complex with a defect coupling to PLC. Stimulation of the CD3 complex on HPB-ALL cells had only slight effects on adenosine-stimulated cAMP formation, whereas the effect on forskolin-stimulated cAMP was virtually unchanged. The CD3 effect was further analyzed in Jurkat cell membranes. In contrast to the results obtained after stimulation of intact cells, it was found that OKT3 stimulation of membranes did not potentiate the forskolin response. Finally, we tested whether inhibition of endogenous adenylate cyclase agonist production affected the CD3 effect. Inhibition of adenosine production or adenosine breakdown with 8-p-sulphophenyl theophylline (8-PST) or adenosine deaminase (ADA), respectively, did not alter the CD3 effects. Indometacin, which inhibits prostaglandin production, also had no effect. Together, these data show that stimulation of the CD2 receptor potentiates adenylate cyclase responses by a mechanism that is dependent on CD3 expression. Furthermore, the CD3 effect on cAMP appears to be mediated by two different mechanisms, one which is, and one which is not dependent on PLC. Finally, this effect is not due to an endogenous production of adenylate cyclase agonists.
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PMID:CD3-dependent increase in cyclic AMP in human T-cells following stimulation of the CD2 receptor. 167 13

The effects of nonsalicylate nonsteroidal antiinflammatory drugs on acid secretion were studied in isolated rabbit parietal cells. Indomethacin, naproxen, and carprofen (10(-6)-10(-4) mol/L) potentiated histamine-, forskolin-, 3-isobutyl-1-methylxanthine-, and dibutyryl cyclic adenosine monophosphate-stimulated acid secretion without affecting basal acid secretion. This augmentation of secretagogue-stimulated acid secretion was dependent on extracellular calcium because potentiation was abolished by calcium depletion of the medium or in the presence of the calcium antagonist lanthanum chloride. Potentiation was independent of the H2 and muscarinic receptors and did not appear to involve guanine nucleotide regulatory proteins. Proton pump activity was unaffected by indomethacin. Furthermore, nonsteroidal antiinflammatory drugs increased calcium efflux through the plasma membrane, as measured by calcium 45, and decreased endogenous prostaglandin E2 content. Exogenous dimethyl prostaglandin E2 inhibited the potentiating effect of these drugs on histamine-stimulated but apparently not on dibutyryl cyclic adenosine monophosphate-stimulated acid secretion. The data indicate that nonsalicylate nonsteroidal antiinflammatory drugs interacted at a postreceptor site between adenylate cyclase and the proton pump. The potentiating effects of these drugs were regulated by calcium and possibly modulated by prostanoids.
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PMID:Nonsalicylate nonsteroidal antiinflammatory drugs augment prestimulated acid secretion in rabbit parietal cells. Investigation of the mechanisms of action. 186 Jun 39

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