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)

6-Methoxypurine arabinoside (ara-M) exhibits potent activity against varicella-zoster virus (VZV) as a result of ara-M's anabolism to the triphosphate of adenine arabinoside (ara-ATP) in VZV-infected cells. The adenosine deaminase inhibitor erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) enhanced the formation of ara-ATP by inhibiting ara-M demethoxylation. In contrast, deoxycoformycin and coformycin, inhibitors of both adenosine deaminase and AMP deaminase, blocked the formation of ara-ATP and reversed the anti-VZV activity of ara-M. These results indicate that after the initial phosphorylation of ara-M by the VZV-coded thymidine kinase, the monophosphate is demethoxylated by AMP deaminase to form ara-IMP, which is converted to ara-ATP by the sequential actions of the cellular adenylosuccinate synthetase, adenylosuccinate lyase, and nucleotide kinases.
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PMID:Anabolic pathway of 6-methoxypurine arabinoside in cells infected with varicella-zoster virus. 166 24

The effects of a number of purinoceptor agonists and antagonists on norepinephrine (NE) overflow were examined in the electrically field-stimulated rat vas deferens. The P1 receptor agonists adenosine and 2-chloroadenosine and the P2 receptor agonists ATP and beta, gamma-methylene ATP all reduced the overflow of NE, which was quantified by high-performance liquid chromatography-electrochemical detection techniques. The P1 receptor antagonist 8-(p-sulfophenyl)-theophylline (8-SPT) and the P2 receptor desensitizing agent alpha, beta-methylene ATP blocked the inhibitory effects of both P1 and P2 receptor agonists. The pyrimidine nucleotide UTP also inhibited NE overflow and this effect was antagonized by 8-SPT. The adenosine uptake inhibitor S-p-nitrobenzyl-6-thioguanosine potentiated and adenosine deaminase blocked the inhibitory effect of adenosine on NE overflow but neither had any effect on the ability of the adenine nucleotides to inhibit NE overflow. These results indicate that adenine nucleotides can act per se, without conversion to adenosine, on a prejunctional receptor to inhibit the release of NE. Because the effects of the adenine nucleotides are antagonized by 8-SPT, it appears that they act at the same receptor as the adenine nucleosides. UTP apparently acts at this receptor as well. These findings suggest that prejunctional purinoceptors on the sympathetic nerves of the rat vas deferens differ from P1 or P2 receptors as usually defined and thus may represent a unique class of receptor (P3) as has been suggested for the prejunctional receptors of the rat caudal artery.
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PMID:Nucleotide modulation of norepinephrine release from sympathetic nerves in the rat vas deferens. 167 77

Fludara I.V. (fludarabine phosphate) (9-beta-D-arabinosyl-2-fluoroadenine, F-ara-A) is an adenine nucleoside analogue resistant to adenosine deaminase that shows promising therapeutic activity in the clinical treatment of lymphocytic hematologic malignancies. F-ara-A is transported into cells, where it is converted to its 5'-triphosphate (F-ara-ATP), the principal active metabolite. Deoxycytidine kinase is the enzyme responsible for the initial step of this activation metabolism. The differential transport and phosphorylation of F-ara-A and accumulation of F-ara-ATP by normal and cancer cells may constitute the metabolic basis of its positive therapeutic index. The major action of F-ara-A is the inhibition of DNA synthesis. F-ara-ATP competes with deoxyadenosine triphosphate for incorporation into the A sites of the elongating DNA strand by DNA polymerases and terminates DNA synthesis at the incorporation sites. That action is potentiated by the decrease of cellular dATP that results from inhibition of ribonucleotide reductase by F-ara-ATP. In vitro experiments demonstrated that DNA polymerase delta is able to excise the incorporated F-ara-AMP residues from DNA with its 3' to 5' exonuclease activity. The terminal incorporation of F-ara-AMP into DNA results in deletion of genetic material. That mechanism may be responsible for the observed mutagenicity of Fludara I.V., and ultimately its cytotoxic action.
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PMID:Metabolism and action of fludarabine phosphate. 169 80

Cultured chick heart muscle cells degrade ATP during metabolic inhibition via ADP to AMP. Whether AMP is primarily deaminated to IMP or dephosphorylated to adenosine depends on the 'metabolic block' (glycolysis vs. oxidative phosphorylation). Inhibition of glycolysis (deoxyglucose) results in an inosine/adenosine ratio greater than 1 in the supernatant, whereas the nucleoside ratio is less than or equal to 1 during inhibition of oxidative phosphorylation (hypoxia, rotenone). EHNA, a blocker of adenosine deaminase, has little effect on inosine release during metabolic inhibition, consistent with the reported low activity of adenosine deaminase in cardiac muscle cells. The amount of adenosine and inosine released can be largely attenuated by two nucleoside carrier inhibitors, nitrobenzyl-thioinosine and dipyridamole, which suggests that nucleosides are produced intracellularly and subsequently released. These results indicate that the amount of inosine or adenosine released from the cardiomyocyte during impaired energy metabolism (e.g. ischemia) can be controlled by the metabolic state of the cell.
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PMID:Adenine nucleotide degradation in cultured chick heart muscle cells. 179 25

Deoxyadenosine triphosphate (dATP) is present in adenosine deaminase (ADA)-deficient or ADA-inhibited human red cells and in the red cells of the opossum Didelphis virginiana. In order to investigate the functions of dATP in the red cell, red cells were treated with 2'-deoxycoformycin (dCf), a powerful inhibitor of ADA, and incubated with phosphate, deoxyadenosine and glucose. These red cells in which ATP was almost completely replaced by dATP, had the same shape, lactate production, nucleotide consumption, stability of reduced glutathione, osmotic fragility and cell deformability as red cells containing ATP. Cells merely depleted of ATP showed reduced viability. This indicates that dATP compensates well for the absence of ATP and acts as an energy-transferring molecule to maintain cell viability. These results indicate that the accumulation of dATP or the reduction of ATP is not the cause of the hemolysis observed after dCf administration.
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PMID:Deoxyadenosine triphosphate acting as an energy-transferring molecule in adenosine deaminase inhibited human erythrocytes. 191 76

Adenosine derivatives are frequently used in chemotherapy because of their potent antitumor, antiviral and antiparasitic activity. We investigated the metabolism of some adenosine analogues in adenosine deaminase inhibited normal and adenine phosphoribosyltransferase (APRT) deficient human erythrocytes. The ATP and GTP concentrations and the formation of unusual nucleotides were measured. Some of the analogues studied (tubercidin, 9 beta-D-arabinofuranosyladenine, 2'-deoxyadenosine, 2-chloroadenosine, neplanocin A) were phosphorylated to the corresponding nucleoside triphosphates and this process was abolished by iodotubercidin--an adenosine kinase inhibitor. With the exception of 2'-deoxyadenosine, nucleotide analogue formation was accompanied by ATP depletion. ATP decrease was not observed after adenosine kinase inhibition and ATP concentration even increased in the presence of 2'-deoxyadenosine, neplanocin A and 5'-iodo-5'-deoxyadenosine. However, the latter increment was not observed in APRT deficient erythrocytes. Bredinin, S-adenosylhomocysteine, deoxycoformycin and adenosine dialdehyde did not form nucleotide derivatives or exert any effects on ATP concentration. It is concluded that adenosine analogues can either enter the nucleotide pool via phosphorylation mechanisms, or may be converted to ATP by the pathways involving the intermediate formation of adenine.
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PMID:Effects of adenosine analogues on ATP concentrations in human erythrocytes. Further evidence for a route independent of adenosine kinase. 193 Mar 1

Liver plasma membrane ecto-ATPase activity is largely restricted to the bile canalicular membrane. To determine whether a transport process is also selectively present on this membrane surface to reclaim adenosine derived from the intracanalicular degradation of ATP, the characteristics of hepatic nucleoside transport were examined in canalicular (cLPM) and basolateral (blLPM) rat liver plasma membrane vesicles. In the presence of the adenosine deaminase inhibitor, deoxycoformycin, an inwardly directed Na+ gradient markedly stimulated [3H]adenosine uptake in cLPM vesicles. Canalicular Na(+)-dependent [3H]adenosine uptake was enhanced by an intravesicular-negative membrane potential and inhibited by dissipation of the Na+ gradient with gramicidin D. Both purine and pyrimidine nucleosides inhibited canalicular adenosine transport. 6-[(4-Nitrobenzyl)thio]-9-beta-D-ribofuranosylpurine, an inhibitor of nucleoside transport in erythrocytes and nonepithelial cells, had no effect on canalicular adenosine transport. Canalicular Na(+)-dependent [3H]adenosine uptake exhibited saturability with a Michaelis-Menten constant of 8.3 microM and a maximum transport rate of 7.6 pmol.5 s-1.mg protein-1. In contrast, [3H]adenosine uptake in blLPM vesicles was not stimulated by an inwardly directed Na+ gradient. These findings demonstrate asymmetric distribution of hepatic Na(+)-dependent nucleoside transport. Reclamation of intracanalicular adenosine resulting from ecto-ATPase activity may explain the presence of this transport process selectively on the bile canalicular membrane.
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PMID:Adenosine transport in rat liver plasma membrane vesicles. 195 95

Field electrical stimulation (ES), K+ (50 mM) or ionophore X-537A (0.01 mM) induced tritium release from cat cerebral arteries preincubated with [3H]noradrenaline (NA). Adenosine and AMP (0.5 mM) did not modify tritium release caused by ionophore X-537A, but these agents and ATP (0.5 mM) significantly reduced that elicited by ES and K+; this reduction was antagonized by 1-methyl-3-isobutylxanthine (MIX; 0.05 mM). Inosine (0.5 mM) and the agonist of purinergic A2-receptors, 5'N-ethyl-carboxamide adenosine (NECA; 0.5 mM) had no effect, but the agonist of purinergic A2-receptors L-N6-phenylisopropyl adenosine (L-PIA; 0.1 mM) diminished tritium efflux caused by ES and K+. The adenosine inhibition of ES-induced radioactivity release was not affected by indomethacin (0.05 mM). MIX (0.05 mM) increased tritium release evoked by ES and K+. Agents that increase intracellular cyclic (c)AMP levels, such as dibutyryl cAMP (0.5 mM), the phosphodiesterase inhibitor Ro 20-1724 (0.1 mM), and the activators of adenylate cyclase, forskolin (0.005 mM) and NaF (2 mM) reduced tritium secretion elicited by ES and K+. However, the intracellular increase of cyclic GMP (cGMP) caused by 8-Br-cGMP did not affect this secretion. Dipyridamole (0.05 mM) and the adenosine deaminase inhibitor erythro-9-2-hydroxy-3 nonyl adenosine (EHNA; 0.1 mM) also produced inhibition of tritium secretion elicited by ES and K+. Dipyridamole reduced both the uptake of [3H]NA and [3H]adenosine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of presynaptic purinoceptors and cyclic AMP on the noradrenaline release in cat cerebral arteries. 198 Feb 88

Although several different enzymes with 5'-nucleotidase activity have been described in mammalian cells, their functions in nucleotide metabolism have not been clearly distinguished. In the present experiments, a mutant human T lymphoblastoid cell line (CEM-dAdoR) was selected specifically for resistance to deoxyadenosine toxicity. Compared to parental CEM cells, the variant had 4-fold elevated ATP-activated cytosolic 5'-nucleotidase activity. Other enzymes of potential importance for deoxyadenosine metabolism were indistinguishable in the two cell types. In medium supplemented with the adenosine deaminase inhibitor deoxycoformycin, the T cells with increased 5'-nucleotidase accumulated less nucleotides from exogenously added deoxyadenosine, or 9-beta-D-arabinofuranosyladenine, than did parental T lymphocytes. These metabolic changes were associated with resistance to the growth inhibitory effects of these nucleosides, and also to deoxyguanosine and to 9-beta-D-arabinofuranosylguanine. The T cells with elevated 5'-nucleotidase activity formed more 2',3'-dideoxyadenosine than did parental cells, in deoxycoformycin-supplemented medium. The accumulation of 2',3'-dideoxyadenosine 5'-triphosphate from 2',3'-dideoxyinosine was similarly augmented in the mutant. These data establish the importance of the cytosolic 5'-nucleotidase for the metabolism of purine 2'-deoxyribonucleosides, arabinonucleosides and 2',3'-dideoxyribonucleosides in T lymphoblasts.
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PMID:Deoxyadenosine-resistant human T lymphoblasts with elevated 5'-nucleotidase activity. 199 64

Adenosine and adenine nucleotides shorten the action potential duration of atrial myocytes and activate a specific acetylcholine and adenosine receptor-operated potassium outward current referred to as IKACh,Ado. The objective of this study was to determine whether adenine nucleotides shorten the action potential duration and increase IKACh,Ado in guinea pig atrial myocytes by directly activating adenosine receptors. The potency and efficacy of AMP and adenosine in increasing IKACh,Ado and shortening atrial action potential duration were similar; the EC50 values for AMP and adenosine were 3.4 +/- 0.8 and 3.1 +/- 0.4 microM, respectively. Likewise, the maximum increases in IKACh,Ado caused by AMP and adenosine were similar (122 +/- 11% versus 123 +/- 9%). In comparison, ATP and the stable analogue of AMP, adenosine monophosphorothioate (AMPS), were significantly less potent and efficacious than adenosine and AMP, and adenosine receptor antagonist 8-(p-sulfophenyl)theophylline and abolished in the presence of adenosine deaminase and alpha, beta-methylene-ADP (APCP, an inhibitor of AMP degradation). Binding of the A1-adenosine antagonist [3H]8-cyclopentyl-1,3-dipropylxanthine (DPCPX) to guinea pig atrial membranes treated with adenosine deaminase and APCP was reduced up to 60% by 100 microM concentrations of AMP, AMPS, and adenosine. Inosine inhibited binding by 43 +/- 3% at 100 microM, whereas hypoxanthine and xanthine had little (5-10% inhibition) and uric acid had no effect. Only 3% of AMP and 35% of AMPS were recovered intact after a 90-minute incubation at 21 degrees C with preparations of guinea pig atrial membranes. Percent displacement of [3H]DPCPX binding to atrial membranes by 100 microM AMP was significantly less in the presence of nucleoside phosphorylase and xanthine oxidase (to degrade inosine, hypoxanthine, and xanthine to uric acid) than in their absence (12.4 +/- 3.1% versus 49.7 +/- 1.5%). The results suggest that the observed electrophysiological actions of adenine nucleotides in cardiomyocytes are mediated by adenosine and are consistent with activation of A1-adenosine receptors.
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PMID:Electrophysiological and receptor binding studies to assess activation of the cardiac adenosine receptor by adenine nucleotides. 200 6

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