EC:3.5.4.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.4 (adenosine deaminase)
5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of tetracycline on the metabolism of isolated rat white fat cells were examined. Tetracycline at a concentration of 0.05 mg/ml inhibited lipolysis due to 0.075 or 0.15 muM norepinephrine, but not that due to adenosine deaminase, theophylline, dibutyryl cyclic AMP or 1.5 muM norepinephrine. Higher concentrations of tetracycline (1 mg/ml) inhibited lipolysis due to all added agents except dibutyryl cyclic AMP. The accumulation of cyclic AMP after 5 minutes incubation with 0.15 muM norepinephrine plus adenosine deaminase was inhibited by 0.05 mg/ml of tetracycline. The large rise in cyclic AMP accumulation at 5 minutes due to 1.5 muM norepinephrine in the presence of 100 muM theophylline was only slightly inhibited by 0.05 or 0.1 mg/ml of tetracycline. Tetracycline at 1 mg/ml did markedly inhibit cyclic AMP accumulation due to all added agents. The stimulation of adenylate cyclase activity of fat cell ghosts by norepinephrine or fluoride was inhibited by 0.05 mg/ml or greater concentration of tetracycline. Insulin-stimulated glucose oxidation by fat cells was inhibited by 1 mg/ml of tetracycline. These results suggest that the anti-lipolytic action of tetracycline on rat fat cells is secondary to inhibition of cyclic AMP accumulation.
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PMID:Inhibition of lipolysis and cyclic AMP accumulation in white fat cells by tetracycline. 16 21

1. The inhibitory effect of adenosine on the glucagon-stimulated adenylate cyclase activity of liver plasma membranes, prepared from PVG/c rats, was potentiated by insulin. In the presence of EGTA, such potentiating effect of insulin was lost. 2. Calcium (10 microM) potentiated the inhibitory effects of both adenosine and insulin on the glucagon-stimulated cyclase activity. The synergestic effect of calcium + insulin required the presence of adenosine as judged from the use of adenosine deaminase. 3. Insulin had no significant inhibitory effect on the glucagon-stimulated cyclase activity of liver plasma membranes, prepared from young Wistar rats, unless both adenosine (50 microM) and calcium (10 microM) were added externally. 4. Results demonstrate an interaction of calcium and insulin at membrane level that, in the presence of adenosine, results in the inhibition of the glucagon-stimulated adenylate cyclase activity.
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PMID:Involvement of calcium in the inhibition by insulin of the glucagon-stimulated adenylate-cyclase activity. 44 85

We have studied the effects of insulin, adenosine and 12-O-tetradecanoylphorbol-13-acetate (TPA) on glucose metabolism of the retinal pigmented epithelial (RPE) cells in vitro. Insulin stimulates glucose transport, glucose oxidation and lipogenesis in RPE cells. TPA at low concentrations of insulin increases the rates of glucose transport and glucose oxidation. Depletion of adenosine in RPE cells by adenosine deaminase increases the rate of both glucose transport and 14CO2 formation and improves insulin-sensitivity of both processes. The effects of TPA on RPE cells cannot be explained by the activation of protein kinase C. An alternative possibility is that the effects of TPA on insulin-stimulated glucose disposal in RPE cells is mediated by a change in adenosine concentration and/or the affinity/number of its receptors.
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PMID:Effects of insulin and a tumour promoter, TPA, on glucose transport and metabolism in retinal pigmented epithelium in vitro. 141 11

The sensitivities of lipolysis and fatty acid synthesis to dibutyryl-cAMP (dbcAMP), epinephrine, ractopamine and clenbuterol were quantified in vitro using porcine adipocytes. Insulin-stimulated lipogenesis showed a biphasic response to dbcAMP, with increased rates at low concentrations and decreased (55%) rates at higher concentrations of dbcAMP. In the absence of insulin, lipogenesis was inhibited 78% by dbcAMP. In the presence of adenosine deaminase or theophylline, all three beta-adrenergic agonists inhibited basal lipogenesis, but only epinephrine and ractopamine inhibited insulin-stimulated lipogenesis. The relationship between suppressed lipogenesis and enhanced lipolysis in response to dbcAMP and the beta-agonists revealed that 1) basal lipogenesis was more sensitive to inhibition than was the stimulation of lipolysis, 2) sensitivity differences were magnified if adenosine deaminase was present and 3) insulin decreased adipocyte sensitivity to the inhibitory effects of dbcAMP and the beta-adrenergic agonists. These results indicate that the relative sensitivities of lipogenesis and lipolysis to beta-adrenergic stimulation can be modified by adenosine and insulin. Furthermore, adenosine and insulin antagonize beta-adrenergic responses, in part, by cAMP-independent mechanisms.
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PMID:Sensitivity of lipolysis and lipogenesis to dibutyryl-cAMP and beta-adrenergic agonists in swine adipocytes in vitro. 197 May 55

1. Insulin increased basal 2-deoxyglucose uptake in isolated swine adipocytes by 75%. In the absence of insulin, isoproterenol did not inhibit basal 2-deoxyglucose transport. 2. Adenosine deaminase plus isoproterenol or theophylline alone reduced insulin effect by 10 and 40%, respectively. Isoproterenol alone or with 2-chloroadenosine did not inhibit insulin effect on glucose transport activity. 3. Insulin effect was inhibited by isoproterenol in the presence of theophylline but not in the presence of adenosine deaminase. 4. These results suggest that catecholamines do not counter-regulate basal and insulin-stimulated glucose transport in swine adipocytes.
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PMID:Effect of insulin and adrenergic agonists on glucose transport of porcine adipocytes. 198 40

1. Ovine adipocytes were isolated in the presence of adenosine to minimize cell damage and were incubated at a low cell concentration. 2. Insulin sensitivity of lipid metabolism was retained. 3. Insulin inhibited basal lipolysis by 61% and isoproterenol- and adenosine deaminase-stimulated lipolysis by 84%. 4. Insulin increased glucose conversion to cell lipid by 3-fold.
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PMID:Sensitivity of freshly isolated ovine adipocytes to inhibition of lipolysis by insulin. 219 71

Insulin at physiological concentrations can suppress catecholamine activation of the membrane transport of long chain fatty acids in the adipocyte. We have previously shown that the stimulatory effect of catecholamines was mediated by a beta-receptor interaction and cAMP (Abumrad, N.A., Park, C.R., and Whitesell, R. R. (1986) J. Biol. Chem. 261, 13082-13086). In this study we have investigated the mechanism of insulin action to antagonize transport activation. Fatty acid transport was stimulated using different cAMP derivatives with varying susceptibilities to hydrolysis by the cAMP-degrading enzyme phosphodiesterase. Insulin was effective in antagonizing the effect of cAMP analogs which were good substrates for the phosphodiesterase and failed to suppress the effect of those which were poorly hydrolyzed by the enzyme. Addition of increasing concentrations (1-100 microM) of the phosphodiesterase inhibitor methylisobutylxanthine (MIX) to norepinephrine (0.1 microgram/ml) gradually abolished insulin's antagonism. Insulin was completely ineffective in inhibiting stimulation by norepinephrine and 20 microM methylisobutylxanthine. Also consistent with involvement of cAMP lowering in insulin action was the finding that adenosine removal greatly diminished insulin's responsiveness. Treatment of cells with adenosine deaminase (1 unit/ml) enhanced the effect of norepinephrine by about 30%. A 10-fold higher range of insulin concentrations was then required to produce inhibition of fatty acid transport. The effect of adenosine removal was reversed by addition of phenylisopropyladenosine (500 nM), which is resistant to hydrolysis by the deaminase. Finally, exposure of insulin-treated cells (1 nM for 5 min) to dinitrophenol (1 mM for 5 min) reversed insulin action, consistent with reports of reversal of insulin's activation of the phosphodiesterase. In conclusion, our studies support the involvement of cAMP lowering in insulin's antagonism of fatty acid transport stimulation in the adipocyte.
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PMID:Insulin antagonism of catecholamine stimulation of fatty acid transport in the adipocyte. Studies on its mechanism of action. 245 20

In rat adipocytes, the breakdown of phosphoinositides labelled by a 3 h incubation with [3H]inositol resulted in the accumulation of labelled inositol mono-, bis- and trisphosphates in the presence of oxytocin, vasotocin or vasopressin. Oxytocin at a concentration of 1 nM markedly increased phosphoinositide breakdown. Incubation of adipocytes both during the 3 h labelling and the 10 min breakdown period in a low adenosine medium (presence of adenosine deaminase) or high adenosine medium (presence of 0.1 microM N6-(phenylisopropyl)adenosine) (PIA) did not affect basal or ligand-stimulated phosphoinositide breakdown. The addition of 1 microM PIA only during the measurement of phosphoinositide breakdown variably stimulated basal breakdown but significantly potentiated that due to oxytocin. Isoproterenol similarly had little effect on basal but inhibited oxytocin stimulation of phosphoinositide breakdown. Insulin did not affect basal or ligand-stimulated phosphoinositide breakdown in the low or high adenosine medium. However, in adipocytes incubated in the absence of added adenosine deaminase or PIA, insulin stimulated basal accumulation of inositol phosphates by about 20% and inhibited that due to oxytocin by about 20%. There was no significant effect of insulin on the stimulation by vasopressin or vasotocin of phosphoinositide breakdown. These results indicate that, in adipocytes, phosphoinositide breakdown stimulated by oxytocin is enhanced by adenosine, inhibited by isoproterenol and, under some conditions is inhibited by insulin.
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PMID:Regulation of oxytocin-induced phosphoinositide breakdown in adipocytes by adenosine, isoproterenol and insulin. 255 83

Backfat was obtained at slaughter from market weight hogs to study the acute effects of clenbuterol (CB), ractopamine (RAC) or epinephrine (EPI), in the presence and absence of theophylline (THEO) or adenosine deaminase (ADA), on rates of lipolysis and fatty acid synthesis in vitro. Only EPI increased lipolytic rate in the absence of THEO or ADA. In the presence of THEO or ADA, RAC and CB were lipolytic, although CB had a lower maximal response. With THEO present, RAC and EPI increased lipolysis with a similar potency and responsiveness. Lipolytic responses from all agonists were prevented by propranolol. Insulin stimulated glucose incorporation into fatty acids 50 to 100%; stimulated rates were not influenced by any agonist, either alone or in the presence of ADA. When THEO was present, EPI and RAC inhibited fatty acid synthesis approximately 50%. Clenbuterol was not inhibitory under any conditions. Results indicate that, under appropriate conditions, beta-adrenergic agents increase lipolysis and decrease lipogenesis in porcine adipocytes. Combined evidence suggests that lipolysis is more sensitive to beta-adrenergic stimulation than is insulin-stimulated lipogenesis. Finally, RAC and CB possess only partial agonist activity relative to EPI, CB being least active.
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PMID:Acute effects of beta-adrenergic agonists on porcine adipocyte metabolism in vitro. 257 68

Insulin action on adipocytes induces two major metabolic effects: stimulation of glucose transport and inhibition of lipolysis. Previously, we have shown that incubated isolated adipocytes from starved (S), and streptozotocin-treated diabetic (D) rats show insulin resistance on glucose transport. It is not known whether insulin resistance is also present on antilipolysis. In this study the antilipolytic action of insulin was investigated. Since basal lipolysis was low, lipolysis was first stimulated by isoproterenol (ISO). This showed that differences existed in sensitivity for ISO among control (C), S, and D adipocytes. We investigated whether changes in adenosine accumulation could attribute to the differences in ISO action and thereby influence insulin action. When endogenous accumulating adenosine was removed by adenosine deaminase and replaced by a fixed concentration (200 nM) of the nonhydrolyzable adenosine analog phenylisopropyladenosine, the differences in ISO action disappeared. This indicates that the sensitivity of C, S, and D adipocytes for ISO is strongly influenced by endogenous adenosine release. The dose-response relationship between insulin and inhibition of ISO-stimulated lipolysis showed that insulin sensitivity was increased and responsiveness unaltered in S and D compared to C adipocytes for incubations with both uncontrolled and controlled adenosine concentrations. This indicates that during S and D states, endogenous adenosine release has no major effect on insulin action. The increased sensitivity for insulin of S and D adipocytes was paralleled by an increased binding of [125I]iodoinsulin. The unaltered responsiveness for insulin indicates that there is no insulin resistance at the postbinding level for antilipolysis, i.e. intracellular processes for antilipolysis are intact. This is in contrast to glucose transport, where insulin resistance exists at the postbinding level during S and D. Thus, insulin resistance is no general phenomenon, but is confined to specific effector systems.
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PMID:Antilipolytic action of insulin in adipocytes from starved and diabetic rats during adenosine-controlled incubations. 268 15

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