EC:3.5.4.4 - FACTA Search

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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)

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

The adenosine deaminase inhibitors deoxycoformycin and erythro-9-(2-hydroxy-3 nonyl) adenine (EHNA) induce single-strand DNA breaks in cultured human lymphocytes. Deoxycoformycin produced a significant number of strand breaks (4-fold increase compared to controls) and EHNA induced strand breaks in a dose-dependent manner. Strand breaks stimulate repair by poly(ADP-ribosylation) which requires NAD+ as a cofactor. Niacin is a precursor of NAD+ and when preincubated with human lymphocytes prior to exposure to adenosine deaminase inhibitors, strand breakage was reduced significantly. The administration of niacin may represent an approach to decreasing the toxicity associated with these agents.
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PMID:Niacin prevents DNA strand breakage by adenosine deaminase inhibitors. 232 39

Acetylcholine and ATP are costored and coreleased during synaptic activity at the electric organ of Torpedo. It has been suggested that released ATP is converted to adenosine at the synaptic cleft, and in turn this nucleoside would depress the evoked release of acetylcholine. In the present communication we have used a chemiluminescent reaction that let us to monitor continuously the presence of adenosine in this preparation. The chemiluminescent reaction is based on the conversion of adenosine into uric acid and H2O2 by adenosine deaminase, nucleoside phosphorylase, and xanthine oxidase enzymes. The hydrogen peroxide has been detected by peroxidase-luminol mixture. The reaction has a sensitivity on the picomol range and discerned between Adenosine, AMP, ADP, and ATP. We have developed this technique in the hope of understanding whether adenosine is released during synaptic activity or it comes from the released ATP. We have studied the release or formation of adenosine in fragments of the electric organ and in isolated cholinergic nerve terminals obtained from it. In both conditions we have followed the effect of potassium stimulation upon the detection of adenosine. Potassium stimulation increased the extracellular adenosine either in slices or the synaptosomal fraction of Torpedo electric organ. The presence of alpha, beta-methylene ADP, an inhibitor of 5'-nucleotidase, inhibits the detection of adenosine, suggesting that extracellular adenosine is a consequence of ectocellular dephosphorylation of released ATP.
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PMID:The release of adenosine at the electric organ of Torpedo. A study using a continuous chemiluminescent method. 232 27

The use of a relatively specific adenosine deaminase inhibitor, 2'-deoxycoformycin (1.0 microM), has revealed an active transport of adenosine into astrocytes in primary cultures. The abolishment of part of the metabolic degradation and of a concentration gradient, which may favour influx, did not lead to a decreased total uptake. The concentration of labelled, i.e. exchangeable adenosine rose to become several fold higher than in the medium. Thus, as previously shown in neurons, the uptake of adenosine into astrocytes occurs by an active and concentrative process. As a result of the increase in the adenosine concentration when the inhibitor was present, evidence for an increased phosphorylation to the nucleotides (i.e. ATP, ADP, AMP) was obtained. This is in contrast to previous findings in neurons where the incorporation of labelled adenosine into these compounds was decreased in the presence of 2'-deoxycoformycin. This difference may suggest that the salvage pathway from inosine to adenine nucleotides is crucial for nucleotide synthesis in neurons, but not in astrocytes.
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PMID:Effects of adenosine deaminase inhibition on active uptake and metabolism of adenosine in astrocytes in primary cultures. 235 54

This communication reports the effects of the exotoxin of Bordetella pertussis (pertussis toxin) on hamster brown fat cells. Pertussis toxin significantly increased the lipolytic and respiratory responses to isoproterenol but did not increase the basal rates of either of these processes. In contrast, the stimulation of respiration by the alpha-adrenergic agent phenylephrine was not altered by pertussis toxin. The inhibitory effects of adenosine on stimulated lipolysis, respiration, and adenylate cyclase activity were completely abolished by pertussis toxin, as was the ability of methylxanthines or adenosine deaminase to potentiate isoproterenol stimulation of respiration or lipolysis. These effects of pertussis toxin were associated with an ADP ribosylation of a single membrane protein having a molecular weight of approximately 41. These data demonstrate that pertussis toxin can prevent the inhibitory action of adenosine on brown fat cells and suggest that the effects of the nucleoside on these cells results from inhibition of adenylate cyclase. We further suggest that the enhanced responses to isoproterenol in pertussis-treated adipocytes results from a blockade of the action of endogenous adenosine. In addition to blocking adenosine action, pertussis toxin also abolished the antilipolytic effect of insulin. However, because the antilipolytic effect of insulin was prevented by adenosine deaminase and 3-isobutyl-1-methylxanthine and restored by 2-chloroadenosine, we conclude that insulin action on these cells is dependent on adenosine. Thus pertussis toxin blockade of insulin action appears to be secondary to blockade of adenosine action.
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PMID:Effects of pertussis toxin treatment on metabolism in hamster brown adipocytes. 241 1

2'-deoxyNAD was examined as a substrate for both mono(ADP-ribosyl)ation and poly(ADP-ribosyl)ation reactions. 2'-deoxyNAD is a substrate for the diphtheria toxin-catalyzed mono(ADP-ribosyl)ation of elongation factor-2, inactivating its function to enhance protein synthesis. On the other hand, 2'-deoxyNAD is a poor substrate for poly(ADP-ribose) polymerase. 2'-deoxyNAD was not synthesized intracellularly from deoxyATP, even when deoxyATP content was markedly increased by incubation of cells with deoxyadenosine and an adenosine deaminase inhibitor. 2'-deoxyNAD, because of its specificity, could be a quite useful reagent for the investigation of cellular mono(ADP-ribosyl)ation reactions.
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PMID:Utilization of 2'-deoxynad for ADP-ribose transfer reactions. 251 87

Previous work has shown that platelet-derived adenine nucleotides modulate neutrophil superoxide anion (O2-) generation. Additional studies were undertaken to characterize the effects of authentic adenosine (ADO) and its nucleotide derivatives on the inflammatory functions of human neutrophils. Stimulus-specific inhibition of neutrophil O2- generation by ADO in response to FMLP was verified. In addition, the ability of ATP, ADP, and AMP to limit neutrophil O2- generation induced by FMLP (0.2 to 0.5 microM) was demonstrated. The concentration producing 50% inhibition for nucleotide inhibition of neutrophil O2- generation was in the rank order of ADO (0.1 microM) less than AMP (0.5 microM) less than ADP less than or equal to ATP (5 microM). Guanine and inosine nucleotides (0.01 to 100 microM) did not inhibit FMLP-stimulated neutrophil O2- generation. Neutrophil degranulation in response to FMLP was only modestly inhibited by adenine nucleotides and ADO. Adenosine and ADP failed to affect chemotaxis of neutrophils stimulated with FMLP. The inability of non-metabolizable analogs to mimic the inhibitory effects of authentic ATP or ADP on the neutrophil O2- response suggested that metabolism of added nucleotides is necessary for their effectiveness. Both TLC and HPLC confirmed that ATP and ADP were converted to AMP and ADO after their incubation with unstimulated or FMLP-activated neutrophils. The addition of adenosine deaminase to neutrophil reaction mixtures in which conversion of added nucleotides was apparent removed detectable ADO but failed to completely abrogate the inhibition of neutrophil O2- generation by accumulated AMP. The kinetics of inhibition of FMLP-induced neutrophil O2- generation by ATP and ADP also indicated that conversion of these nucleotides to ADO and/or AMP may be essential for their ability to reduce neutrophil responses.
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PMID:Regulation of human neutrophil functions by adenine nucleotides. 253 67

We compared the response of rat PC12 cells and a derivative PC18 cell line to the effects of adenosine receptor agonists, antagonists, and adenine nucleotide metabolizing enzymes. We found that theophylline (an adenosine receptor antagonist), adenosine deaminase, and AMP deaminase all decreased basal cyclic AMP content and tyrosine hydroxylase activity in the PC12 cells, but not in PC18 cells. Both cell lines responded to the addition of 2-chloroadenosine and 5'-N-ethylcarboxamidoadenosine, adenosine receptor agonists, by exhibiting an increase in tyrosine hydroxylase activity and cyclic AMP content. The latter finding indicates that both cell lines contained an adenosine receptor linked to adenylate cyclase. We found that the addition of dipyridamole, an inhibitor of adenosine uptake, produced an elevation of cyclic AMP and tyrosine hydroxylase activity in both cell lines. Deoxycoformycin, an inhibitor of adenosine deaminase, failed to alter the levels of cyclic AMP or tyrosine hydroxylase activity. This suggests that uptake was the primary inactivating mechanism of adenosine action in these cells. We conclude that both cell types generated adenine nucleotides which activate the adenosine receptor in an autocrine or paracrine fashion. We found that PC12 cells released ATP in a calcium-dependent process in response to activation of the nicotinic receptor. We also measured the rates of degradation of exogenous ATP, ADP, and AMP by PC12 cells. We found that the rates of metabolism of the former two were at least an order of magnitude greater than that of AMP. Any released ATP would be rapidly metabolized to AMP and then more slowly degraded to adenosine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine receptor activation and the regulation of tyrosine hydroxylase activity in PC12 and PC18 cells. 257 81

Forskolin, a plant (Coleus forskohlii) diterpene, inhibits ADP-induced (human: IC50, 2.3 +/- 1.0 microM; rat: IC50, 1.2 +/- 0.5 microM) and collagen-induced (human: IC50, 2.4 +/- 1.2 microM; rat: 0.6 +/- 0.2 microM) platelet aggregation in human and rat platelet-rich plasma (PRP). Human blood levels of adenosine (Ado) are low (100-300 nM) as compared to levels in rat plasma (7.55 +/- 0.51 microM). Ado is a natural antiplatelet and vasodilatory agent produced by vascular endothelium, heart and other body tissues. If the plasma Ado is degraded by pretreatment of PRP with adenosine deaminase (ADA), forskolin inhibition on platelet aggregation is reduced by 2-4 fold both in human and rat blood. On the other hand, if the physiological steady state levels of Ado are maintained by collecting the blood in the presence of the inhibitors of ADA (2'-deoxycoformycin, dCF, 5 microM) and Ado uptake (dipyridamole, 10 microM or dilazep, 2 microM), forskolin inhibition (IC50, 3.2 microM) on platelet aggregation in human PRP is potentiated by 20-40 fold (IC50, 0.075-0.15 microM). Similar potentiated forskolin effect (IC50, 0.53 microM) is seen if the ADA-treated human PRP is replenished with a low level of Ado (50 nM) after ADA inactivation by dCF and Ado-uptake blockade by dilazep. If the plasma is replenished with a higher concentration of Ado (300 nM), greater potentiation is seen (IC50, 0.23 microM). Forskolin is 2-4 fold more inhibitory in rat PRP than in human PRP, partially due to the presence of higher levels of Ado in the rat plasma. These studies demonstrate an important role of plasma Ado in the antiplatelet activity of forskolin and this effect can be greatly potentiated by the clinically used drugs, dipyridamole and dilazep.
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PMID:Significance of plasma adenosine in the antiplatelet activity of forskolin: potentiation by dipyridamole and dilazep. 274 84

1. The effects of adenosine deaminase, inosine, alkylxanthines (8-phenyltheophylline (8-PT), theophylline and isobutylmethylxanthine (IBMX], dipyridamole, alpha, beta-methylene ADP (AOPCP) and ATP analogues (alpha, beta-methylene ATP and beta, gamma-methylene ATP) on evoked end-plate potentials (e.p.p.s) were investigated in innervated sartorius muscles of the frog, in which twitches had been prevented with tubocurarine. The effects of 8-PT and IBMX on the amplitude and quantal content of e.p.p.s were also investigated in innervated sartorius muscles of the frog, in which twitches had been prevented with high-magnesium solutions. 2. Adenosine deaminase reversibly increased the amplitude of e.p.p.s and prevented the reduction caused by exogenously applied adenosine on e.p.p. amplitude. The increase caused by adenosine deaminase was equivalent to the decrease caused by 12 +/- 5.8 microM-adenosine on e.p.p. amplitude. 3. Inosine, the product of adenosine deamination, was virtually devoid of effect on e.p.p.s. 4. The adenosine receptor antagonists at the frog neuromuscular junction, 8-PT and theophylline, increased in a concentration-dependent manner the amplitude of e.p.p.s in the presence of tubocurarine. 8-PT increased the amplitude and quantal content of e.p.p.s in the presence of high magnesium. IBMX, which does not behave as an adenosine receptor antagonist at the frog neuromuscular junction, decreased the amplitude of e.p.p.s in the presence of tubocurarine or high-magnesium solutions. 5. Dipyridamole, an adenosine uptake blocker, decreased the amplitude of e.p.p.s, and in a concentration that did not affect neuromuscular transmission potentiated the depressing effect of adenosine, but not that of 2-chloroadenosine, on the amplitude of e.p.p.s. 6. AOPCP, an inhibitor of 5'-nucleotidase, increased the amplitude of e.p.p.s and markedly attenuated the depressing effect of ATP, but not that of adenosine, on e.p.p. amplitude. 7. The ATP analogue, alpha, beta-methylene ATP, which is not a substrate for 5'-nucleotidase, was virtually devoid of effect on e.p.p.s. beta, gamma-Methylene ATP, which can be a substrate for 5'-nucleotidase, mimicked the depressing effect of ATP on e.p.p. amplitude, an effect which was also reduced by AOPCP. 8. It is concluded that in conditions in which the initial quantal content is assumed to be normal (1) endogenous adenosine depresses neuromuscular transmission, (2) at the neuromuscular junction adenosine is inactivated through a dipyridamole-sensitive uptake process, and (3) released adenine nucleotides might contribute to the pool of endogenous adenosine which modulates neuromuscular transmission.
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PMID:On the role, inactivation and origin of endogenous adenosine at the frog neuromuscular junction. 282 Dec 40

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