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 loss of the catabolic products of adenosine triphosphate in the form of purine nucleosides and oxypurines during ischemia and subsequent reperfusion may limit adenine nucleotide regeneration. This study compared the effects of infusion of inhibitors of the major reactions involved in the degradation of adenosine triphosphate to inosine on the postischemic recovery of high energy phosphate and myocardial function. Inhibitors of adenylate kinase, 5'nucleotidase, adenosine translocase and adenosine deaminase were studied. Following 30 minutes of ischemia, only hearts infused with alpha, beta, methylene adenosine diphosphate (5' nucleotidase inhibitor) recovered significantly better ventricular function than control (p less than 0.05), but all hearts had increased adenosine triphosphate regeneration (p less than 0.05). The formation and washout of greater than 30% of the total adenine pool metabolites was not prevented by any drug. Nevertheless all manipulations of adenine metabolism resulted in recruitment of high energy phosphate during preischemic infusion.
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PMID:The influence of inhibitors of the ATP degradative pathway on recovery of function and high energy phosphate after transient ischemia in the rat heart. 302 47

The loss of the catabolic products of adenosine triphosphate in the form of purine nucleosides and oxypurines during ischemia and subsequent reperfusion may limit adenine nucleotide regeneration. This study compared the effects of infusion of inhibitors of the major reactions involved in the degradation of adenosine triphosphate to inosine on the postischemic recovery of high energy phosphate and myocardial function. Isolated rat hearts were made totally ischemic after a 5-min infusion of p1,p5-diadenosine pentaphosphate, alpha, beta-methylene adenosine diphosphate, nitrobenzyl-6-thioinosine, or erythro-9-(2-hydroxy-3-nonyl) adenine, which are inhibitors of adenylate kinase, 5'-nucleotidase, adenosine translocase, and adenosine deaminase, respectively. Following 30 min of ischemia, only hearts infused with alpha, beta-methylene adenosine diphosphate recovered significantly better ventricular function than did the control (P less than 0.05), but all hearts had increased adenosine triphosphate and creatine phosphate regeneration (P less than 0.05). The formation and washout of greater than 30% of the total adenine pool metabolites were not prevented by any drug. Nevertheless all manipulations of adenine metabolism resulted in recruitment of high energy phosphate during preischemic infusion which may have potential benefits in elective ischemic arrest.
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PMID:Influence of inhibitors of ATP catabolism on myocardial recovery after ischemia. 304 Nov 5

Rat brain microsomes, when they are suspended in moderate ionic strength medium, released enzyme activities of lactate dehydrogenase (LDH, E.C.1.1.1.27), malate dehydrogenase (MDH, E.C.1.1.1.37), adenosine deaminase (ADA, E.C.3.5.4.4), guanine deaminase (GAH, E.C.3.5.4.3), and purine nucleoside phosphorylase (PNP, E.C.2.1.2.4). The activities released decreased when the saline concentration of the medium was increased and the opposite occurred when 50 mM, pH 7.4 sodium phosphate medium was used. Rat brain microsomes that had been extracted previously by moderate ionic strength solutions still had activities of all the enzymes tested, and released these activities upon sonication or deoxycholate (DOC) treatment. The proportion of the activity released was similar for all the enzymes. DOC treatment released higher enzymic activities and a smaller amount of protein than sonication did. The proportion of activities released was similar to that found in the 105,000 g supernatant. The suspension of microsomes still retained activities of the above-mentioned enzymes after consecutive extractions with increasing concentrations of detergent solutions (DOC and Triton X-100). The amount of enzymic activities released from the microsomes by sonication or DOC treatment did not depend on the protein composition of the homogenization medium. Thus, on increasing the enzyme concentration in the homogenization medium, the activities released did not increase in parallel. The set of results obtained showed that the microsomal fraction is as useful as the cytosolic one for studying purine catabolism in rat brain. Furthermore, the conditions in which purine enzymes are attached to the microsomal fraction are probably closer to "in vivo" conditions than those in which these enzymes are found in the soluble fraction.
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PMID:Enzymes of the purine metabolism in rat brain microsomes. 308 83

Adenine nucleotides displace the binding of the selective adenosine A-1 receptor ligand [3H]cyclopentyladenosine (CPA) to rat brain membranes in a concentration-dependent manner, with the rank order of activity being ATP greater than ADP greater than AMP. Binding was also displaced by GTP, ITP, adenylylimidodiphosphate (AppNHp), 2-methylthioATP, and the beta-gamma-methylene isostere of ATP, but was unaffected by the alpha-beta-methylene isosteres of ADP and ATP, and UTP. At ATP concentrations greater than 100 microM, the inhibitory effects on CPA binding were reversed, until at 2 mM ATP, specific binding of CPA was identical to that seen in controls. Concentrations of ATP greater than 10 mM totally inhibited specific binding. Inclusion of the catabolic enzyme adenosine deaminase in the incubation medium abolished the inhibitory effects of ATP, indicating that these were due to adenosine formation, presumably due to ectonucleotidase activity. The inhibitory effects were also attenuated by the alpha-beta-methylene isostere of ATP, an ectonucleotidase inhibitor. Adenosine deaminase, alpha-beta-methylene ATP (100 microM), and beta-gamma-methylene ATP (100 microM) had no effect on the "stimulatory" phase of binding, although GTP (100 microM) slightly attenuated it. Comparison of the binding of [3H]CPA in the absence and presence of 2 mM ATP by saturation analysis showed that the KD and apparent Bmax values were identical. Examination of the pharmacology of the control and "ATP-dependent" CPA binding sites showed slight changes in binding of adenosine agonists and antagonists. The responses observed with high concentrations of ATP were not observed with GTP, AppNHp, the chelating agents EDTA and EGTA, or inorganic phosphate. The divalent cations Mg2+ and Ca2+ at 10 mM attenuated the stimulatory actions of high (2 mM) concentrations of ATP, whereas EGTA and EDTA (10 mM) enhanced the "stimulatory" actions of ATP. EDTA (10 mM) abolished the inhibitory effects of ATP, indicating a specific dependence on Mg2+ for the inhibitory response. The effects of ATP on [3H]CPA binding were reversible for antagonists but not agonists. The mechanism by which ATP reverses its own inhibitory action on adenosine A-1 radioligand binding is unclear, and from the observed actions of the divalent cations and chelating agents probably does not involve a phosphorylation-dependent process.
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PMID:Effects of purine nucleotides on the binding of [3H]cyclopentyladenosine to adenosine A-1 receptors in rat brain membranes. 308 5

Mobilization of the ribose moiety of purine nucleosides as well as of the amino group of adenine may be realized in Bacillus cereus by the concerted action of three enzymes: adenosine phosphorylase, adenosine deaminase, and purine nucleoside phosphorylase. In this pathway, ribose-1-phosphate and inorganic phosphate act catalytically, being continuously regenerated by purine nucleoside phosphorylase and adenosine phosphorylase, respectively. As a result of such a metabolic pathway, adenine is quantitatively converted into hypoxanthine, thus overcoming the lack of adenase in B. cereus.
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PMID:Phosphorylase-mediated mobilization of the amino group of adenine in Bacillus cereus. 312 63

Adenosine has been measured at the nanomolar level by an enzymatic radioactive assay. The nucleoside is converted into [U-14C]ribose-labeled inosine via the following reactions: adenosine + H2O----adenine + ribose (adenosine nucleosidase); adenine + [U-14C]ribose 1-phosphate in equilibrium with T[U-14C]ribose-adenosine + Pi (adenosine phosphorylase); [U-14C]ribose-adenosine + H2O----[U-14C]ribose-inosine + NH3 (adenosine deaminase). The radioactivity of inosine, separated by thin-layer chromatography, is a measure of the adenosine initially present.
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PMID:Radioenzymatic determination of adenosine. 312 68

Analogues that are poor substrates for adenosine deaminase or purine nucleoside phosphorylase may mimic immunodeficiencies associated with the enzyme deficiencies, and their activities may be directed toward selected lymphocyte subpopulations. Four analogues were studied for their effects on primary antibody response to either a T-dependent (sheep erythrocytes) or T-independent (trinitrophenyl-conjugated Escherichia coli lipopolysaccharide) antigen as well as effects on T-cytotoxic and natural killer cell activities in mice. The nucleosides were: an adenosine analogue, tubercidin; two deoxyadenosine analogues, 2-chloro, 2'-deoxyadenosine and 2-fluoroadenine arabinoside-5'-phosphate; and a deoxyguanosine analogue, 9-beta-D-arabinosylguanine. Drugs were given i.p. once daily for 3 consecutive days. Immune responses were determined in spleen cell suspensions 1 day after the last dose. Tubercidin inhibited both T-cytotoxic and natural killer cell activities at doses that did not reduce primary antibody response, whereas the reverse was true for 2-chloro, 2'-deoxyadenosine and 2-fluoroadenine arabinoside-5'-phosphate. At higher doses, T-cytotoxic lymphocytes appeared to be more sensitive than natural killer cells to the deoxyadenosine analogues. 9-beta-D-Arabinosylguanine did not selectively inhibit the immune responses at doses that clearly reduced the yield of spleen lymphocytes. Assuming the analogues mimic endogenous nucleosides, the results suggest that natural killer cells are more sensitive to adenosine than are those cells responsible for primary antibody response, whereas the reverse is true for deoxyadenosine.
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PMID:Selective modulation of antibody response and natural killer cell activity by purine nucleoside analogues. 326 25

The counterregulatory action of catecholamines on insulin-stimulated glucose transport and its relation to glucose transporter phosphorylation were studied in isolated rat adipose cells. Plasma membranes exhibiting reduced glucose transport activity were prepared as described previously (Joost, H. G., Weber, T. M., Cushman, S. W., and Simpson, I. A. (1986) J. Biol. Chem. 261, 10033-10036) from cells treated with insulin, and subsequently with isoproterenol and adenosine deaminase. In these membranes, transporter affinity for cytochalasin B binding was significantly reduced (KD = 133.5 +/- 14 versus 89.8 +/- 11 nM, means +/- S.E.) with no change in number of sites or immunoreactivity of the transporter on Western blots. Reconstituted plasma membrane transport was significantly lower with isoproterenol treatment (0.50 +/- 0.12 versus 0.97 +/- 0.27 nmol/mg protein/10 s). In contrast, transport activity reconstituted from corresponding intracellular transporters (from low density microsomes) was unchanged (5.4 +/- 2.2 versus 6.9 +/- 1.2 nmol/mg protein/10 s). Thus, the intrinsic activity change of the transporter produced by catecholamines appears to reflect a structural modification that is confined to the plasma membrane and not recycled into the intracellular compartment. In cells equilibrated with [32P]phosphate, neither insulin nor isoproterenol induced [32P]phosphate incorporation into the glucose transporter immunoprecipitated from plasma membranes. Conversely, phorbol 12-myristate 13-acetate stimulated significant incorporation of [32P]phosphate into the glucose transporter in insulin-stimulated cells without any change in plasma membrane transport activity or transporter concentration. Thus, the phosphorylation state of the glucose transporter does not seem to be involved in either signaling transporter translocation or triggering changes in transporter intrinsic activity.
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PMID:Activity and phosphorylation state of glucose transporters in plasma membranes from insulin-, isoproterenol-, and phorbol ester-treated rat adipose cells. 330 53

Adenosine (Ado, 10 microM) was metabolized in whole blood within 1 min, primarily to hypoxanthine and ATP. The concentration of Ado, the activities of adenosine deaminase (ADA) and Ado kinase, the Km values for Ado with ADA and Ado kinase, and the substrate inhibition of Ado kinase are factors that govern the Ado metabolism between deamination and phosphorylation. If ADA activity was blocked by 2'-deoxycoformycin (dCF, 5 microM), a tight-binding inhibitor of ADA, most of the Ado (96%) was incorporated into adenine nucleotides, whereas if Ado kinase activity was blocked with 5-iodotubercidin (10 microM), Ado was mainly (95%) metabolized into hypoxanthine. A high phosphate concentration (25 mM) caused marked increases in the formation of IMP. The nucleoside transport inhibitors dilazep (1 microM), dipyridamole (10 microM) and nitrobenzylthioinosine (NBMPR, 1 microM) strongly blocked cellular Ado metabolism. In the presence of nucleoside transport inhibitors, Ado which slowly enters the cell was metabolized principally by Ado kinase rather than ADA. Dilazep, NBMPR and dipyridamole were more effective in blocking Ado uptake and metabolism by erythrocytes suspended in a protein-free medium than by cells suspended in plasma.
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PMID:Adenosine metabolism in human whole blood. Effects of nucleoside transport inhibitors and phosphate concentration. 334 99

The mechanisms responsible for the large increases of intracellular ATP levels seen after isolated rabbit proximal tubules are treated with exogenous adenine nucleotides were studied. Exogenous ATP was rapidly degraded via adenosine as far as hypoxanthine. Degradation of AMP to adenosine was substantially inhibited by beta-glycerol phosphate. In studies of the ability of individual exogenous purines to increase intracellular ATP levels, single large doses of adenosine were less effective than equimolar doses of exogenous ATP but were substantially more effective than exogenous inosine or hypoxanthine. Exogenous guanine derived compounds increased only cell GTP. Incremental delivery of smaller doses of adenosine to maintain medium levels greater than 5 microM or inhibition of adenosine deaminase with erythro-9-[3-(2-hydroxynonyl)]adenine or 2'-deoxycoformicin enhanced the nucleoside's effectiveness. However, the initial increase of cell ATP was still greater after treatment with exogenous ATP than after adenosine and, in the presence of adenosine deaminase inhibition, larger increases of cell ATP were produced by 50 microM adenosine than by 250 microM adenosine. These observations are most consistent with substrate inhibition of adenosine kinase by adenosine. Furthermore, the adenosine kinase inhibitor, 5-iodotubercidin, prevented the increases of cell ATP resulting from exogenous adenosine or exogenous ATP. These studies demonstrate how the differential uptake and utilization characteristics of nucleosides and bases can fully account for the increases of intracellular nucleotides produced in isolated tubules by exogenous purines.
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PMID:Modulation of cell nucleotide levels of isolated kidney tubules. 334 10

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