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)

An early event associated with neutrophil-dependent tissue damage involves the adhesion of neutrophils to the vascular endothelium and the subsequent release of oxygen-derived free radicals and granule constituents. Elevations in intracellular cAMP are known to inhibit free radical release but not lysosomal enzyme release. The role of cAMP in FMLP-induced neutrophil adhesion was examined in this study by using an in vitro model of neutrophil-endothelial cell adhesion. FMLP stimulated a time- and concentration-dependent increase in human neutrophil adhesion to HUVEC. FMLP-mediated adhesion was inhibited by a diverse group of cAMP modulators: forskolin, isoproterenol, phosphodiesterase IV inhibitors (rolipram and Ro 20-1724), but not phosphodiesterase III inhibitors (milrinone and bemoradan). Endogenous adenosine has previously been shown to mediate FMLP-induced increases in cAMP enhanced in the presence of Ro 20-1724. In this study, adenosine deaminase prevented the inhibitory effects observed with rolipram and Ro 20-1724, implicating endogenous adenosine as a co-modulator of inhibition. FMLP stimulated neutrophil shape change and the surface expression of the beta 2 integrins CD11b/CD18 and CD11a/CD18. Both these responses were inhibited by rolipram but not bemoradan. With the use of 4,4'-diisothiocyanostilbene-2,2'disulfonic acid, we showed that mobilization of the intracellular pool of CD11b/CD18 paralleled adhesion. We conclude that neutrophil-endothelial cell adhesion is attenuated by elevating neutrophil intracellular cAMP and that inhibition of neutrophil CD11b/CD18 surface expression by cAMP accounts for this observed inhibition of adhesion.
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PMID:Inhibition of chemotactic peptide-induced neutrophil adhesion to vascular endothelium by cAMP modulators. 799 50

The use of polymers for delivering peptide and protein drugs is described. Soluble-polymer technology attempts to bind a polymer to all sites on therapeutic protein molecules that cause the body to recognize the molecules as foreign. Goals include a stable linkage, water solubility, low immunogenicity, prolonged half-life, and intact biological activity. Polyethylene glycol (PEG)-adenosine deaminase (ADA), or pegademase bovine, has FDA-approved labeling as replacement therapy for ADA deficiency in patients with severe combined immunodeficiency disease who are not suitable candidates for bone marrow transplantation. Pegademase bovine reverses the toxic accumulation of adenosine and deoxyadenosine in adenosine deaminase-deficient cells, restoring the immune system. PEG-asparaginase (pegaspargase) has shown promise in patients with acute lymphocytic leukemia; allergic reactions have been minimal. Animal studies suggest that superoxide dismutase has potential use in conditions in which the body's ability to remove oxygen free radicals is reduced, such as burns and myocardial infarction; coupling with PEG may greatly increase the protein's half-life. Other PEG-conjugated proteins under investigation include PEG-catalase, PEG-uricase, PEG-honeybee venom, PEG-hemoglobin, and PEG-modified ragweed pollen extract. Dextran, albumin, DL-amino acids, and polyvinyl pyrrolidone have also been studied as protein carriers; most of the products created thus far have not shown much promise. The coupling of polymers to proteins has yielded protein drugs with intact biological activity and reduced immunogenicity, but much remains to be learned about this technology.
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PMID:Polymers for delivering peptides and proteins. 816 Jun 72

Phagocytic cells respond to a variety of membrane stimulants by producing reactive oxygen intermediates (ROI), i.e. O2-, H2O2 and OH.metabolites. Plasma membrane activation is associated with superoxide generating NADPH oxidase, thereby causing the production of these toxic species. Stimulation of phagocytic cells also results in activation of purine catabolism, which directs the metabolic flux through xanthine oxidase to produce the superoxide anion. We previously observed that BL/LL macrophages (M phi) exhibited a premature inability to undergo tuftsin stimulated phagocytosis and microbicidal activity. The present study was undertaken to measure ROI levels in the absence and presence of 'tuftsin' pulsing as a function of in vitro culture age and also correlated these levels with adenosine deaminase (ADA) activity. The latter is known to be a contributor of O2- generation and is also involved in the maturation of the monocyte/macrophage system. The behaviour of normal and tuberculoid monocytes/macrophages were more or less the same, either in the presence or absence of tuftsin, i.e. they showed a progressive increase in ROI production until day 3, then tapered off in older cultures by day 7. In contrast, after day 1, the lepromatous macrophages were unable to undergo tuftsin mediated stimulation for the production of ROI and ADA activity. These findings indicate a defective M phi function in lepromatous patients towards tuftsin pulsing, thereby supporting our earlier observations. Thus BL/LL M phi behaved as if they were aged after 1 day of in vitro culture, which may account for an inability to handle Mycobacterium leprae for efficient killing.
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PMID:Modulation of peripheral blood derived monocytes/macrophages from leprosy patients using 'tuftsin' for production of reactive oxygen intermediates. 823

Tissue injury associated with myocardial ischemia is assumed to largely result from the toxic effects of active oxygen species generated by accumulated polymorphonuclear leukocytes (PMNs). Recent reports have indicated that adenosine can interfere with the PMN function in vitro. The potential of adenosine to influence PMN-mediated myocardial tissue injury was assessed using a model of ischemia-reperfusion injury developed in the isolated working guinea-pig heart perfused with homologous PMNs. After an initial work phase, hearts were subjected to 30 min low-flow ischemia (1 ml/min) in the absence and presence of PMNs. Work was resumed after 15 min reperfusion in a non-working mode (Langendorff). Adenosine in the coronary effluent reached a maximum of 0.2 microM during low-flow ischemia. Recoveries of external heart work and cardiac output were reduced from about 80% to about 40% by PMNs. Infusion of adenosine deaminase (ADA, 5 U/ml), theophylline (50 microM) or the selective A1-antagonist dipropyl-8-cyclopentylxanthine (0.1 microM) prevented this effect. Furthermore, application of adenosine (0.1 microM) in combination with PMNs also resulted in a loss of pump function, even in the absence of a direct ischemic stimulus. The data indicate that adenosine contributes to post-ischemic, PMN-mediated damage in the isolated working guinea-pig heart model by a receptor-mediated action.
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PMID:Adenosine contributes to neutrophil-mediated loss of myocardial function in post-ischemic guinea-pig hearts. 826 62

We have solved the structure of Escherichia coli cytidine deaminase (CDA) complexed to the transition state analog, 5-fluoroprimidin-2-one riboside. The monomer of the alpha 2 CDA dimer is composed of a small N-terminal alpha-helical domain with no obvious connection to the active sites, and two, larger, core domains. The two core domains have nearly identical tertiary structures and are related by approximate 2-fold symmetry, but lack internal amino acid sequence homology. Comparison of the core domain structure with known structures by sequence homology and structural compatibility searches suggests that the CDA tertiary structure cannot be superimposed on any known protein structure. The two active sites per dimer are formed across the subunit interface. The N-terminal core domain provides a pyrimidine nucleoside and zinc-binding pocket and the structurally homologous C-terminal core domain in the other monomer covers this active-site cleft, completely sequestering the ligand from solvent. The deeply buried zinc-binding site is formed by a novel "topological switch point" at the amino termini of two alpha-helices in consecutive alpha-beta-alpha-beta segments. The transition state analog is bound as a covalent hydrate at C4. The inhibitor hydroxyl oxygen atom interacts both with the zinc atom and the Glu104 carboxylate group, affording high differential affinity for the hydroxyl group relative to a hydrogen atom, in a manner reminiscent of that observed in adenosine deaminase (ADA). Unlike the latter enzyme, the zinc atom is coordinated in a tetrahedral ligand field to two cysteine and one histidine ligands, plus the hydroxyl group. Moreover, the inhibitor stereochemistry is of the opposite hand from that of the corresponding ADA inhibitor at C4(R), but is the same at the hydroxyl group O4(S). A consequence of these stereochemical differences is that in CDA a single conserved carboxylate side-chain, Glu104, can provide all of the necessary proton transfer functions involved in generating the zinc hydroxide nucleophile, and protonating the pyrimidine ring nitrogen atom and leaving amino group. The differences in zinc ligands, ligand-binding stereochemistry, and tertiary structures of CDA and ADA strongly suggest that the common features of transition state stabilization arose by convergent evolution.
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PMID:Cytidine deaminase. The 2.3 A crystal structure of an enzyme: transition-state analog complex. 828 86

This study was conducted to elucidate the role of S-adenosyl-L-homocysteine (SAH) hydrolase, 5'-nucleotidase and adenosine kinase in the production and removal of adenosine in the isolated guinea pig heart during normoxic (95% O2) and hypoxic (30% O2) perfusion. Using an adenosine kinase inhibitor (5'-amino-5'-deoxy-adenosine; 50 microM) and an adenosine deaminase inhibitor (EHNA; 5 microM) the total steady-state production rate of adenosine in the heart was estimated to be greater than 1.2 nmol.min-1 per g wet wt., during normoxia. Most (95%) of the SAH-derived adenosine is salvaged by adenosine kinase action. The rate of adenosine phosphorylation increased 3-fold when isolated hearts were perfused with hypoxic medium, suggesting that adenosine kinase is not substrate-saturated under normoxic conditions. The steady-state production of adenosine was also estimated during hypoxia (5.9 nmol-min-1 per g wet wt.) and compared with previously determined transmethylation rate during hypoxia (1.12 nmol.min-1 x g wet wt.). In an attempt to assess the in-vivo activity of cytosolic 5'-nucleotidase, the 5'-AMP pool was labelled by perfusing the isolated hearts with tricyclic nucleoside (TCN) which became phosphorylated (TCN-P). The release rate of both adenosine and TCN in the post-labelling phase was increased by hypoxic perfusion, suggesting that the increased rate of 5'-AMP hydrolysis may be due to increased availability of substrate, as well as activation of 5'-nucleotidase. Our findings suggest that during normoxic perfusion a significant amount of adenosine is derived from an apparently oxygen-independent mechanism (cellular transmethylation) whereas during hypoxic perfusion hydrolysis of adenine nucleotides to adenosine prevails.
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PMID:Adenosine metabolism in the guinea pig heart: the role of cytosolic S-adenosyl-L-homocysteine hydrolase, 5'-nucleotidase and adenosine kinase. 829 79

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

Non-adrenergic, non-cholinergic (NANC) nerve stimulation results in excitation (e.j.p., rebound depolarization, contractions) or inhibition (i.j.p., afterhyperpolarization, relaxations) of the gut. NANC neuronal mechanisms participate in the maintenance of the basal tone and spontaneous activity of the gut. There are however species differences, i.e. both NANC excitation and inhibition are present in the guinea pig and only NANC inhibition in the rat intestine. Substance P-like neuropeptide/s are suggested to be mediators released from excitatory NANC and sensory nerves. The latter are activated by histamine and degenerated by capsaicin. There is evidence in favor of a nitric oxide-like substance rather than ATP, dopamine, GABA and neuropeptides (e.g. VIP, PHI/PHM) as the inhibitory NANC mediator in the gut. TTX, high Mg(2+)-low Ca2+ media, 3,4-diaminopyridine, dipyridamol and adenosine deaminase modulate NANC excitation and inhibition. The NANC excitation is more sensitive than the NANC inhibition to the action of catecholamines, reserpine, 6-hydroxydopamine, chymotrypsin, prednisolon, bacitracin, opioids, free oxygen species and low concentration of local anesthetics.
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PMID:NANC transmission in intestines and its pharmacological modulation. 839 Nov 98

In the presence of its substrates hypoxanthine and xanthine, xanthine oxidase generates oxygen free radicals that cause postischemic injury. Recently, it has been demonstrated that the burst of xanthine oxidase-mediated free radical generation in the reperfused heart is triggered by a large increase in substrate formation, which occurs secondary to the degradation of adenine nucleotides during ischemia. It is not known, however, whether blocking this substrate formation is sufficient to prevent radical generation and functional injury. Therefore, studies were performed in isolated rat hearts in which xanthine oxidase substrate formation was blocked with the adenosine deaminase inhibitor erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), and measurements of contractile function and free radical generation were performed. Chromatographic measurements of the intracellular adenine nucleotide pool showed that preischemic administration of EHNA blocked postischemic hypoxanthine, xanthine, and inosine formation. Electron paramagnetic resonance spin trapping measurements of free radical generation showed that inhibition of adenosine deaminase with EHNA blocked free radical generation and that it also increased the recovery of contractile function by more than 2-fold. Exogenous infusion of hypoxanthine and xanthine totally reversed the protective effects of EHNA. These results demonstrate that blockade of xanthine oxidase substrate formation by adenosine deaminase inhibition can prevent free radical generation and contractile dysfunction in the postischemic heart.
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PMID:Adenosine deaminase inhibition prevents free radical-mediated injury in the postischemic heart. 862 67

The effect of human platelets on chemoattractant-induced generation of oxygen metabolites in neutrophils was investigated, using luminol-enhanced chemiluminescence (CL). Resting platelets inhibited the extracellular, but not the intracellular, production of oxygen radicals in formyl-methionyl-leucyl-phenylalanine (fMet-Leu-Phe)-stimulated neutrophils. Maximal effect was obtained at the physiological neutrophil/platelet ratio of 1/50. Similar results were acquired by adding supernatants of platelets, indicating a role for a soluble factor. Removal of extracellular adenosine by adenosine deaminase (ADA), or blocking of adenosine-receptors by theophylline, antagonized the inhibitory effects of platelets (or the equivalent supernatant) on the neutrophil respiratory burst. In contrast, accumulation of adenosine by apyrase enhanced the inhibition. Exogenous adenosine mimicked the effects of platelets on the fMet-Leu-Phe-induced respiratory burst. To further assess the role of platelet-derived adenosine, the platelets were fixed with paraformaldehyde. We found that fixed platelets, as well as their supernatant, inhibited the fMet-Leu-Phe-induced CL-response to the same extent as viable cells. These effects were also reversed by ADA and theophylline, respectively. A prior removal of adenosine in the platelet suspension by ADA, followed by treatment with erythro-9-(2-hydroxy-3-nonyl)-adenine (EHNA) to inactivate ADA, did not reverse the inhibitory action of platelets on the fMet-Leu-Phe-induced CL-response in neutrophils. However, if adenosine receptors of neutrophil at the same time were blocked with theophyline, the inhibition was significantly reduced. Platelets markedly increased the generation of adenosine in a neutrophil suspension. The effect was antagonized by S-(4-Nitrobenzyl)-6-thioguanosine (NBTG), but unaffected by alpha, beta-methyl-eneadenosine5'diphosphate (AMP-CP), indicating that the platelet-dependent accumulation of adenosine is due to an increased release of endogenous adenosine from neutrophils and not to a degradation of extracellular AMP. In correlation, NBTG, but not AMP-CP, reversed the platelet-mediated inhibition of the fMet-Leu-Phe-induced CL-response in neutrophils. Consequently, these data suggest that a platelet-derived factor increases the release of endogenously formed adenosine from neutrophils, terminating the production of oxygen radicals. The inhibition of oxidase activity was also associated with a platelet-induced polymerization of actin in the margin of the neutrophils. Treatment of neutrophils with cytochalasin B reversed the effects of platelets, both on F-actin content and CL-response. In summary, resting platelets limit the release of oxygen radicals from chemoattractant-stimulated neutrophils, thus preventing excessive damage to host tissues in the vascular space. This effect is suggested to be associated with an increase generation of neutrophil-derived adenosine enhancing an autoregulatory inhibitory pathway, and a peripheral accumulation of actin filaments forming a barrier for extracellular release of reactive oxygen radicals.
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PMID:Release of oxygen metabolites from chemoattractant-stimulated neutrophils is inhibited by resting platelets: role of extracellular adenosine and actin polymerization. 863 3

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