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)

Pig erythrocytes are unable to metabolize glucose and their physiological energy source is unknown. These cells have a high-capacity nucleoside transport system with similar properties to that responsible for nucleoside transport in other species. Nucleoside transport is sufficiently rapid to allow the possibility that inosine and/or adenosine may represent major energy substrates for pig erythrocytes in vivo. Normal and adenosine deaminase-deficient pig erythrocytes have similar ATP levels, suggesting that adenosine is not important in this respect. However, it was calculated that an extracellular inosine concentration of only 40 nM could support the cells' entire energy requirement, a value 40-fold lower than plasma levels of this nucleoside.
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PMID:Is inosine the physiological energy source of pig erythrocytes? 737 Feb 43

Changes in oxidative metabolism were studied in hepatopancreas, muscle, and hemolymph of the edible crab Scylla serrata, exposed to a sublethal concentration (2.5 ppm) of cadmium chloride. A significant decrease in glycogen, total carbohydrates, and pyruvate and an increase in lactate levels in hepatopancreas and muscle were observed. Hemolymph sugar levels were increased in experimental crabs. An increase in phosphorylase suggested increased glycogenolysis during cadmium toxicity. The decrease in lactate dehydrogenase activity and the increase in lactate content indicated reduced mobilization of pyruvate into the citric acid cycle. Krebs cycle enzymes such as succinate dehydrogenase and malate dehydrogenase were found to be decreased, suggesting impairment of mitochondrial oxidative metabolism as a consequence of cadmium toxicity. Glucose-6-phosphate dehydrogenase activity was increased, suggesting enhanced oxidation of glucose by the HMP pathway. Cytochrome-c oxidase and Mg2+ ATPase activity levels decreased, indicating impaired energy synthesis during cadmium stress. Acid and alkaline phosphatase activities increased, suggesting enhanced breakdown of phosphates to release energy in view of impaired ATPase system during cadmium exposure. A significant decrease in protein and free amino acid and an increase in ammonia, urea, and glutamine levels were observed in the tissues during exposure. An increase in protease, alanine aminotransaminase, and aspartate aminotransaminase suggested increased proteolysis and transamination of amino acids. The increase in glutamate dehydrogenase, AMP deaminase, and adenosine deaminase indicated increased ammonia production. The increased arginase and glutamine synthetase suggested the detoxification or mobilization of ammonia toward the production of urea and glutamine. These results suggest that cadmium affects oxidative metabolism and induces hyperammonemia, and crabs switch over their metabolic profiles toward compensatory mechanisms for the survivability in cadmium-polluted habitats.
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PMID:Changes in oxidative metabolism in selected tissues of the crab (Scylla serrata) in response to cadmium toxicity. 753 86

The possible role of brain adenosine in acute ethanol-induced alteration in glucose utilization in the whole brain, as well as in the specific brain areas (cerebellum and brain stem), was investigated. Mice were killed 20-min postethanol, and the fresh tissue slices (300 microns) of brain and/or specific brain areas were incubated for 100 min in a 5.5 mM glucose medium in Warburg flasks using [6-(14)C]glucose as a tracer. Trapped 14CO2 was counted to estimate glucose utilization. Ethanol (2 g/kg, i.p.) markedly increased the glucose utilization in whole brain and in both motor areas of brain. Theophylline (50 mg/kg, i.p.), an adenosine antagonist, significantly reduced ethanol-induced increase in glucose utilization in whole brain, as well as in brain areas. However, adenosine agonist N6-cyclohexyladenosine (CHA; 0.1 mg/kg, i.p.) on the contrary, significantly accentuated ethanol-induced increase in glucose utilization in these tissues that was nearly completely blocked by theophylline pretreatment. Theophylline alone did not produce any significant change in glucose utilization, whereas CHA alone (in vivo and in vitro) significantly increased glucose utilization, as well as ethanol-induced increase in glucose utilization in an additive manner. Relevant supportive data were obtained by experiments in which adenosine deaminase (ADA), p-sulfophenyltheophylline (8-SPT), and CHA were administered in vitro to the slice preparations. Both ADA and 8-SPT were effective in almost completely blocking the ethanol-induced increase in glucose utilization, whereas CHA further enhanced the ethanol-induced increase in glucose utilization in an additive manner.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Possible central adenosinergic modulation of ethanol-induced alterations in [14C]glucose utilization in mice. 757 8

The dose response effect of a new adenosine analogue, GR79236 (N-[1S trans-2-hydroxycyclopentyl] adenosine) upon insulin sensitivity was examined in human adipocytes. The influence of adenosine upon insulin sensitivity for suppression of lipolysis and stimulation of glucose transport was examined. Removal of adenosine by use of adenosine deaminase stimulated lipolysis to the same extent as did 10(-9) M noradrenaline. GR79236 brought about dose dependent inhibition of lipolysis with half-maximal effect at 11.3 +/- 7.8 x 10(-9) M. When lipolysis was stimulated by noradrenaline alone the subsequent inhibition of lipolysis brought about by GR79236 was significantly greater than that of insulin. To examine adenosine effects on the insulin signalling pathway separately from those on lipolysis, the insulin sensitivity of glucose transport was examined. Removal of adenosine brought about a small but significant increase in the concentration of insulin required for half-maximal stimulation of glucose transport. Adenosine agonists offer promise as new agents for the modulation of metabolism in diabetes and other states of insulin resistance.
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PMID:Adenosine effects upon insulin action on lipolysis and glucose transport in human adipocytes. 762 86

In this study the relative importance of adenosine deaminase and adenosine kinase in regulating extracellular adenosine concentration was investigated in rat hippocampal slices labelled with [3H]-adenine. The release of [3H]-purines evoked by electrical stimulation or energy depletion (oxygen and glucose deprivation) was measured and, using high-performance liquid chromatography (HPLC), the proportion of [3H]-label in the form of [3H]-adenosine, [3H]-inosine and [3H]-hypoxanthine was determined. In addition, endogenous purine release was measured by HPLC with UV detection. 10 microM 5-iodotubericidin (5-IT), an inhibitor of adenosine kinase, significantly increased endogenous adenosine release and altered the pattern of [3H]-purine release by increasing the proportion released as [3H]-adenosine, under basal conditions and after electrical stimulation or energy depletion. 5 microM erythro-9-(2-hydroxy-3-nonyl) adenosine (EHNA), an inhibitor of adenosine deaminase, also increased endogenous adenosine release and altered the pattern of [3H]-purine release evoked by energy depletion by decreasing the proportion of [3H]-label released as [3H]-hypoxanthine and [3H]-inosine, whilst approximately doubling that of [3H]-adenosine. In contrast, adenosine release was not altered by EHNA under basal conditions or electrical stimulation. It is concluded that under conditions which provide adequate oxygen and glucose, adenosine kinase plays a much greater role than adenosine deaminase in regulating the extracellular concentration of adenosine. However, adenosine deaminase becomes important in regulating extracellular adenosine concentration when adenosine formation is increased by energy depletion.
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PMID:Involvement of adenosine deaminase and adenosine kinase in regulating extracellular adenosine concentration in rat hippocampal slices. 763 32

The inhibition of insulin-stimulated glucose transport by isoprenaline, a mixed beta-adrenergic-receptor (AR) agonist, is well documented in rat adipocytes. Since it has been described that rat adipocytes possess not only beta 1- and beta 2- but also beta 3-ARs, the influence of various subtype-selective beta-AR agonists and antagonists on 2-deoxyglucose (2-DG) transport was assessed in order to characterize the beta-AR subtype involved in the adrenergic counter-regulation of the insulin effect. The stimulation of 2-DG transport by insulin was counteracted, in a dose-dependent manner, by all the beta-AR agonists tested, and the magnitude of the inhibition followed the rank order: BRL 37344 > isoprenaline = noradrenaline >> dobutamine = procaterol. The same rank order of potency was obtained for lipolysis activation. This is not in accordance with the pharmacological definition of a beta 1- or a beta 2-adrenergic effect, but agrees with the pharmacological pattern of a beta 3-adrenergic effect. The inhibitory effect of the beta 3-agonist BRL 37344 on insulin-stimulated 2-DG transport was not reversed by either the selective beta 1-antagonist ICI 89406 or the beta 2-antagonist ICI 118551. In addition, neither of these beta-antagonists was able to block the isoprenaline and noradrenaline effects, supporting major beta 3-adrenoceptor-subtype involvement in the adrenergic inhibition of insulin-stimulated 2-DG transport. Like isoprenaline, BRL 37344 inhibited (60% inhibition) insulin-stimulated glucose transport only when adenosine deaminase was present in the assay. Furthermore, the maximal inhibitory effects of isoprenaline and BRL 37344 were not additive, and were both dependent on albumin concentration in the incubation medium: they increased when the albumin concentration decreased in the medium from 3.5 to 1%. To conclude, the similarities between isoprenaline and BRL 37344 action on insulin-stimulated 2-DG transport, the poor efficacy of the beta 1-/beta 2-agonists and the lack of effect of selective beta 1- and beta 2-antagonists are compelling arguments to support the important role of beta 3-adrenoceptors in the adrenergic inhibition of glucose transport in rat adipocytes.
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PMID:Beta 3-adrenergic receptors are responsible for the adrenergic inhibition of insulin-stimulated glucose transport in rat adipocytes. 790 4

In this study, the basal and evoked release of [3H]- and endogenous adenosine, inosine and hypoxanthine from rat hippocampal slices, labelled with [3H]adenine, was investigated. Evoked release was brought about by either electrical stimulation or energy depletion. The aim was to determine whether adenosine is formed intracellularly, and released as adenosine or extracellularly, from sequential extracellular hydrolysis of released ATP. All measurements were made in the presence of 5 microM erythro-9-(2-hydroxy-3-nonyl) adenosine (EHNA) to inhibit the enzyme adenosine deaminase. It was found that electrical field stimulation (5 min) increased the release of endogenous adenosine from hippocampal slices 10-fold and increased the proportion of [3H]-label associated with adenosine from approx 7% of the total released to 13% after the first stimulation and 20% after the second stimulation. Removal of oxygen and glucose from the superfusion medium (energy depletion) increased the release rate of endogenous adenosine 16-fold and increased the proportion of [3H]-label associated with [3H]adenosine from approx 10% of the total released to 50%. In order to prevent extracellular formation of adenosine, experiments were carried out in the presence of 50 microM alpha, beta-methylene ADP (AOPCP), an inhibitor of ecto-5'-nucleotidase. AOPCP was found to be without effect on either the basal or evoked release of adenosine. In contrast, L-homocysteine thiolactone (0.1-1.0 mM) which was used to "trap" intracellular adenosine reduced both the basal and evoked release of adenosine by 70-85%. This effect of L-homocysteine thiolactone also occurred in the presence of adenosine uptake inhibitors. It is concluded from these results that adenosine is formed predominantly intracellularly in hippocampal slices and is released as adenosine as a result of either tissue depolarisation or energy depletion. Furthermore, the finding that during energy depletion there is a proportionally greater release of adenosine than other ATP breakdown products, such as inosine and hypoxanthine, indicates that energy depletion is both a potent and selective stimulus for adenosine formation and release.
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PMID:Intracellular formation and release of adenosine from rat hippocampal slices evoked by electrical stimulation or energy depletion. 836 41

Blood transfusions have been repeatedly shown to be immunosuppressive in nature. The intracellular mechanisms of this immunosuppression have not been extensively investigated. We investigated the effect of blood transfusions on lymphocyte intracellular metabolism of glucose and amino acids, as well as levels of adenosine deaminase activity and nucleotide triphosphate concentrations. Blood transfusions were found to increase the rate of glucose and glutamine metabolism, to increase nucleotide triphosphate concentrations, and to increase the level of adenosine deaminase activity. This increased level of lymphocyte metabolism in the face of immunosuppression would appear to indicate that the transfusion-induced immunosuppression is an active dynamic process.
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PMID:Effect of blood transfusion on immune function. IX. Effect on lymphocyte metabolism. 841 9

Analyses of different compounds in the plasma of healthy sheep before birth were conducted from day 70 to 43 (group 1), 42 to 22 (group 2), 21 to 15 (group 3), 14 to 8 (group 4) and 7 to 1 (group 5). There were significant differences in the concentration of ascorbic acid, total protein, total alpha-Amino-N, glucose, 3-hydroxybutyrate and of adenosine deaminase in the plasma between several groups, their significance is discussed. There was no difference in the concentration of cholesterol in the plasma of the sheep of the 5 groups. The content of ascorbic acid in 14 different tissues of sheep of the age of 6 and 12 months was analysed. There were significant differences between the 2 groups in the levels of ascorbic acid of the cerebrum and cerebellum, the hypophysis, the lungs, the kidneys and the spleen.
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PMID:[The concentration of ascorbic acid, total protein, alpha-amino-N, glucose, 3-hydroxybutyrate and cholesterol and the activity of adenosine deaminase in the blood of sheep in five different periods of pregnancy and the content of ascorbic acid in 14 tissues]. 843 Nov 98

We studied the effect of variable isolated fat cell concentrations (from 0.17 to 1.25 x 10(6) cells/ml) on rate and pattern of basal and insulin-stimulated glucose metabolism by rat epididymal fat cells. Cell concentration did not affect total glucose utilization, but high cell concentrations increased the absolute and relative conversion of glucose to CO2 and glyceride-fatty acids by two- to threefold and decreased the conversion to lactate, pyruvate, and glyceride-glycerol when compared with values observed at low cell concentration. When effects of adenosine deaminase (ADA) and N-6(2-phenylisopropyl)adenosine (PIA) were examined, addition of ADA to incubated cells produced no significant changes in the rate or pattern of adipocyte glucose metabolism; PIA had a slight and uniform effect on the conversion of glucose to its metabolic products and minimal effect on insulin-stimulated glucose metabolism. Medium free fatty acid concentration did not change during the incubation at various cell density, but intracellular free fatty acids were found to be inversely related to fat cell density in the medium. Thus a variable fat cell density influences the pattern of adipocyte glucose metabolism in vitro. This effect may be due to variable rates of lipolysis and resulting changes in intracellular fatty acid concentration rather than to adenosine per se. This work has practical implications in the need to define cell density when carrying out in vitro measurements of adipocyte glucose conversion to products.
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PMID:Effects of cell density on in vitro glucose metabolism by isolated adipocytes. 846 Jun 83


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