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 mechanism of inhibition of neutrophil phagocytic functions by cAMP-elevating agents has not yet been clarified. In the present work, the effects of adenylate cyclase agonists on protein phosphorylation in the formylmethionyl-leucyl-phenylalanine (fMLP)-stimulated human neutrophils were studied. Before stimulation, 32Pi-labelled cells were incubated with adenosine deaminase to remove the endogenously produced adenosine, an adenylate cyclase agonist itself. A protein of about 52,000 molecular weight was rapidly and transiently phosphorylated when neutrophils were stimulated with fMLP in the presence of isoproterenol, prostaglandin E1, histamine or 2-chloroadenosine. This phosphorylation was blocked by the antagonists of the receptors for the above-listed agents. No phosphorylation of the 52,000 molecular weight protein could be observed if either fMLP or the cAMP-elevating agent were applied alone. A calcium ionophore A23187 and dibutyryl-cAMP could replace fMLP and a cAMP-elevating agent, respectively. Phosphorylation of the 52,000 molecular weight protein was also demonstrated in cell lysates in the presence of cAMP, and in membrane preparations in the presence of the catalytic subunit of cAMP-dependent protein kinase. These data suggest that phosphorylation of the 52,000 molecular weight protein in intact cells is dependent on the cross-talk between the fMLP- and the cAMP-signalling pathways, and may thus be involved in the cAMP-regulatory mechanism.
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PMID:Cross-talk between cAMP and formylmet-leu-phe in human neutrophils: phosphorylation of a 52,000 molecular weight protein. 132 1

A1 adenosine-receptor-antagonist drugs such as 8-cyclopentyl-1,3-dipropylxanthine (CPX) and xanthine amine congener (XAC) are found to activate the efflux of 36Cl- from CFPAC cells. These cells are a pancreatic adenocarcinoma cell line derived from a cystic fibrosis (CF) patient homozygous for the common mutation, deletion of Phe-508. The active concentrations for these compounds are in the low nanomolar range, consistent with action on A1 adenosine receptors. In addition, drug action can be blocked by exogenous agonists such as 2-chloroadenosine and also can be antagonized by removal of endogenous agonists by treatment with adenosine deaminase. Cells lacking the CF genotype and phenotype, such as HT-29 and T84 colon carcinoma cell lines, appear to be resistant to activation of chloride efflux by either drug. CFPAC cells transfected with the CF transmembrane regulator gene, CFTR, are also resistant to activation by CPX. We conclude that, since these antagonists are of relatively low toxicity and appear to act somewhat selectively, they might be considered as promising therapeutic candidates for CF.
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PMID:A1 adenosine-receptor antagonists activate chloride efflux from cystic fibrosis cells. 137 23

Adenosine and its analogues inhibited increases in divalent cation influx stimulated by platelet-activating factor (PAF) and formyl-methionyl-leucyl-phenylalanine (FMLP) in a dose-dependent fashion. This effect was antagonized by theophylline, an adenosine receptor antagonist. When extracellular adenosine was removed by adenosine deaminase, the effect of adenosine was completely abolished. Two adenosine analogues with different affinities for adenosine receptor subtypes, 5'-N-ethylcarboxamideadenosine (NECA) and L-N6-phenylisopropyladenosine (PIA), also inhibited divalent cation influx, NECA being more potent than PIA. These results suggest that adenosine and its analogues inhibit divalent cation influx across neutrophil plasma membranes via surface adenosine A2 receptors. Adenosine had little effect on the initial peaks of intracellular free calcium rises induced by chemoattractants, but it inhibited the subsequent rise in free calcium. Since calcium influx through the divalent cation channels or neutrophil plasma membranes is responsible for maintaining free calcium concentration following the initial peaks, we suggest that adenosine modulates neutrophil function by interfering with this calcium influx.
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PMID:Adenosine inhibits divalent cation influx across human neutrophil plasma membrane via surface adenosine A2 receptors. 141 90

Dipyridamole is an antithrombotic drug that has been shown to influence not only platelet function but also some aspects of leukocyte activation. In this study we demonstrate that dipyridamole effectively inhibits superoxide anion generation by neutrophils, mononuclear leukocytes, and whole blood stimulated with N-formyl-methionyl-leucyl phenylalanine and calcium ionophore A23187. In addition, the drug, at concentrations as low as 1 mumol/L, inhibits the expression of procoagulant activity--basal and stimulated--by mononuclear leukocytes. It is shown that, similar to its effect on platelets, dipyridamole influences these leukocyte functions indirectly, that is, through an increase of extracellular adenosine that in turn inhibits both superoxide anion generation by leukocytes and the expression of procoagulant activity by mononuclear leukocytes. In fact, adenosine deaminase, which metabolizes adenosine to inactive product, prevents the effects of dipyridamole on superoxide anion generation and on the expression of procoagulant activity by leukocytes. Experiments carried out with 8-phenyl-theophylline indicate that the adenosine-dependent effects of dipyridamole may involve multiple pathways, only some of which are dependent on the interaction of adenosine with its receptors. Dipyridamole also dose-dependently inhibits the synthesis of leukotrienes B4 and C4 by stimulated neutrophils and mononuclear leukocytes through a mechanism that is not mediated by the presence of adenosine in the extracellular medium. The reported effects of dipyridamole on separate and distinct pathways involved in leukocyte activation are of relevance in the overall evaluation of the antithrombotic activity of this drug.
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PMID:Multiple effects of dipyridamole on neutrophils and mononuclear leukocytes: adenosine-dependent and adenosine-independent mechanisms. 164 84

The synthesis of several novel carbocyclic purine nucleosides that incorporate a nitrogen in place of carbon 3 of the cyclopentyl moiety are described. These analogues are all derived from the key stereochemically defined intermediate N-(tert-butoxycarbonyl)-O-[(4-methoxyphenyl)diphenylmethyl]-trans- 4- hydroxy-D-prolinol (19), which was accessible in 61.1% overall yield for a five-step sequence starting from cis-4-hydroxy-D-proline. The heterocyclic bases, 6-chloropurine and 2-amino-6-chloropurine, are efficiently introduced onto the pyrrolidine ring via a Mitsunobu-type coupling procedure with triphenylphosphine and diethyl azodicarboxylate. Standard transformations and removal of protecting groups gave the cis-adenine (26), hypoxanthine (27), 2,6-diaminopurine (28), and guanine (29) D-prolinol derivatives. In addition, a related sequence from trans-4-hydroxy-L-proline provided the enantiomeric L-prolinol guanine derivative (36). Lastly, the 6-(dimethylamino)purine analogue, 37, was coupled to N-(benzyl-oxycarbonyl)-p-methoxy-L-phenylalanine to provide, after deprotection, the novel puromycin-like analogue 39. The analogues 26-29, 36, and 39 were all evaluated for antitumor and, except for 39, for antiviral activity. These compounds failed to appreciably inhibit the growth of P388 mouse leukemia cells in vitro at concentrations up to 100 micrograms/mL. In addition, they did not exhibit noticeable activity against the human immunodeficiency virus or herpes simplex virus type 1 at concentrations as high as 100 microM. The adenine analogue, 26, did, however, prove to be a substrate for adenosine deaminase. It possessed an affinity for the enzyme only 50% less than that of adenosine with a Ki = 85 microM.
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PMID:Synthesis and biological evaluation of 4-purinylpyrrolidine nucleosides. 165 29

The cyclic adenosine-3',5'-monophosphate (cAMP) elevation caused by exposure of human neutrophils to the Ca2+ ionophore A23187 was prevented when endogenously produced adenosine was either removed by preincubation with adenosine deaminase or blocked from binding to the adenosine receptor by antagonists [theophylline or (E)-4-(1,2,3,6-tetrahydro-1,3-dimethyl-2,6-dioxo-9H-purin-8-yl)cinnamic acid]. In the absence of endogenous adenosine, A23187 potentiated the neutrophil cAMP response to 2-chloroadenosine, prostaglandin E1, and isoproterenol. When neutrophil suspensions were preincubated with concentrations of Ro 20-1724, which appeared to maximally inhibit cAMP phosphodiesterase, A23187 was still able to substantially elevate cAMP levels, suggesting that A23187 increases cAMP by amplifying adenylate cyclase responsiveness to the agonist rather than by inhibiting cAMP phosphodiesterase. The ability of A23187 to augment the cAMP elevation caused by 2-chloroadenosine was persistent over a 10-min period. The neutrophil cAMP elevations caused by chemoattractants leukotriene B4, C5a, and N-formyl-L-methionyl-L-leucyl-L-phenylalanine (FMLP) were all prevented when endogenously produced adenosine was eliminated from the cell suspensions by the addition of adenosine deaminase. The A23187-induced cAMP elevation was inhibited completely by the calmodulin inhibitors chlorpromazine, trifluoperazine and N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide, whereas cAMP levels induced by FMLP, leukotriene B4 and C5a were less affected. It appears that A23187 raises cAMP in human neutrophils by a calmodulin-dependent potentiation of adenylate cyclase responsiveness to endogenously produced adenosine while the chemoattractant-induced cAMP elevations (FMLP), leukotriene B4, and C5a), although possibly Ca2+ dependent, are less sensitive to calmodulin inhibitors and may involve additional biochemical events.
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PMID:Ca2+ ionophore-induced cyclic adenosine-3',5'-monophosphate elevation in human neutrophils. A calmodulin-dependent potentiation of adenylate cyclase response to endogenously produced adenosine: comparison to chemotactic agents. 166 48

To investigate the inhibitory effect of adenosine released by endothelium on neutrophil superoxide (O2-) production, we treated confluent monolayers of cultured human umbilical vein endothelial cells with the enzyme adenosine deaminase, and then added human neutrophils. Superoxide (O2-) production by human neutrophils stimulated with 10(-6) M formyl-methionyl-leucyl-phenylalanine was inhibited by 49% in the presence of a confluent monolayer of human umbilical vein endothelial cells (5.1 +/- 0.1 versus 2.6 +/- 0.3 nmols O2-/10(6) neutrophils). Addition of 0.25 U/ml adenosine deaminase to neutrophils plus endothelial cells restored formyl-methionyl-leucyl-phenylalanine-stimulated neutrophil superoxide production to the level seen with neutrophils alone. Deoxycoformycin (10(-4) M), an inhibitor of adenosine deaminase activity, prevented the increase in superoxide production associated with adenosine deaminase addition. The adenosine analogue 5'-(N-ethylcarboxamido)- adenosine (3 x 10(-4) M) caused increased inhibition of formyl-methionyl-leucylphenylalanine-stimulated superoxide release by neutrophils in the presence of endothelial cells and prevented neutrophil-mediated endothelial cell damage, as measured by release of 3H-2-deoxy-D-glucose. Pairing 2-chloroadenosine (10(-5) M) or 5'-(N-ethylcarboxamido)-adenosine (3 x 10(-4) M) with a cyclic adenosine monophosphate phosphodiesterase inhibitor, 3-isobutyl-l-methyl-xanthine (10-4 M), produced greater inhibition of neutrophil superoxide production than occurred with either compound alone. The results support the hypothesis that vascular endothelial cells protect themselves from neutrophil attack by releasing adenosine to inhibit superoxide production.
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PMID:Inhibition of neutrophil superoxide production by adenosine released from vascular endothelial cells. 171 81

Since physiological concentrations (0.1-1 microM) of adenosine influence the functions of human polymorphonuclear neutrophils (PMNs), we investigated the metabolism of adenosine in suspensions of stimulated and unstimulated PMNs. Stimulation with phorbol myristate acetate (PMA, 1 microM), but not by zymosan (0.5 mg/ml) or N-formyl-methionyl-leucyl-phenylalanine (fMLP, 1 microM), provoked an accumulation of endogenous adenosine at a rate of 2.3 +/- 1.0 amol/cell per minute. A similar accumulation was observed with both unstimulated and stimulated PMNs after the addition of deoxycoformycin (dCF, 1-100 microM), an inhibitor of adenosine deaminase. Exogenous adenosine (10 microM) was deaminated at a rate of 9.8 +/- 3.7 amol/cell per minute in control or zymosan or fMLP-stimulated PMN suspensions. This deamination was nearly completely suppressed when the PMNs had been stimulated with PMA. In contrast, the activity of adenosine deaminase in PMN lysates (231 +/- 72 amol/cell per minute) was not modified by PMA stimulation. alpha, beta-Methyleneadenosine 5'-diphosphate (AMPCP, 2.5 mM), an inhibitor of membranous ecto-5'-nucleotidase, profoundly inhibited endogenous adenosine accumulation under all conditions. PMA stimulation also provoked an inactivation of extracellular adenosine deaminase, purine nucleoside phosphorylase, and lactate dehydrogenase in PMN suspensions. We concluded that PMNs, even when not stimulated, continuously produce adenosine by dephosphorylation of extracellularly released adenylates; and that stimulation of PMNs by PMA causes adenosine accumulation owing to the inactivation of adenosine deaminase released by broken cells.
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PMID:Purine catabolism in polymorphonuclear neutrophils. Phorbol myristate acetate-induced accumulation of adenosine owing to inactivation of extracellularly released adenosine deaminase. 189 56

1. We investigated effects of theophylline (widely used for the treatment of asthma) and enprofylline (a new xanthine derivative with negligible adenosine antagonism) on O2- production by human neutrophils with n-formyl-methionyl-leucyl-phenylalanine (FMLP) stimulation. 2. Therapeutic concentrations of theophylline (1-100 mumol/L) enhanced O2- production, maximally by 43.1 +/- 24.4% at 30 mumol/L; the same concentrations of enprofylline inhibited O2- production. 3. When each agent was administered after pre-incubation with adenosine deaminase (ADA) (0.1 U/mL), O2- production was inhibited in a concentration-dependent manner in comparison with that under administration of ADA alone. 4. These results suggest that the difference of effects in the two xanthine derivatives at therapeutic concentrations might be due to the presence or absence of adenosine antagonism.
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PMID:Comparison of theophylline and enprofylline effects on human neutrophil superoxide production. 196 97

Although commonly used to control a variety of inflammatory diseases, the mechanism of action of a low dose of methotrexate remains a mystery. Methotrexate accumulates intracellularly where it may interfere with purine metabolism. Therefore, we determined whether a 48-hr pretreatment with methotrexate affected adenosine release from [14C]adenine-labeled human fibroblasts and umbilical vein endothelial cells. Methotrexate significantly increased adenosine release by fibroblasts from 4 +/- 1% to 31 +/- 6% of total purine released (EC50, 1 nM) and by endothelial cells from 24 +/- 4% to 42 +/- 7%. Methotrexate-enhanced adenosine release from fibroblasts was further increased to 51 +/- 4% (EC50, 6 nM) and from endothelial cells was increased to 58 +/- 5% of total purine released by exposure to stimulated (fMet-Leu-Phe at 0.1 microM) neutrophils. The effect of methotrexate on adenosine release was not due to cytotoxicity since cells treated with maximal concentrations of methotrexate took up [14C]adenine and released 14C-labeled purine (a measure of cell injury) in a manner identical to control cells. Methotrexate treatment of fibroblasts dramatically inhibited adherence to fibroblasts by both unstimulated neutrophils (IC50, 9 nM) and stimulated neutrophils (IC50, 13 nM). Methotrexate treatment inhibited neutrophil adherence by enhancing adenosine release from fibroblasts since digestion of extracellular adenosine by added adenosine deaminase completely abrogated the effect of methotrexate on neutrophil adherence without, itself, affecting adherence. One hypothesis that explains the effect of methotrexate on adenosine release is that, by inhibition of 5-aminoimidazole-4-carboxamide ribonucleotide (AICAR) transformylase, methotrexate induces the accumulation of AICAR, the nucleoside precursor of which (5-aminoimidazole-4-carboxamide ribonucleoside referred to hereafter as acadesine) has previously been shown to cause adenosine release from ischemic cardiac tissue. We found that acadesine also promotes adenosine release from and inhibits neutrophil adherence to connective tissue cells. The observation that the antiinflammatory actions of methotrexate are due to the capacity of methotrexate to induce adenosine release may form the basis for the development of an additional class of antiinflammatory drugs.
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PMID:Methotrexate inhibits neutrophil function by stimulating adenosine release from connective tissue cells. 200 82


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