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 effects of adenosine receptor stimulation on the contractile force of rabbit isolated left atrial preparations in the absence and presence of cAMP-generating and cAMP-independent agonists were investigated. Adenosine and the stable adenosine analogues 5'-(N-ethyl)carboxamido adenosine (NECA) and (-)-N6-phenylisopropyladenosine (R-PIA) produced a concentration-dependent direct negative inotropic effect. Responses to NECA and R-PIA were insensitive to atropine and were shifted to the right by the adenosine receptor antagonist 3-isobutyl-1-methyl xanthine (IBMX). NECA and R-PIA were found to reverse positive inotropic responses of left atria to the beta-adrenoceptor agonist, isoproterenol, but were less effective at reversing positive inotropic responses to the adenylate cyclase activator, forskolin, and were almost ineffective at reversing positive inotropic responses to alpha-adrenoceptor stimulation. Neither NECA nor R-PIA had a significant effect on basal cAMP levels or on cAMP levels elevated by isoproterenol in rabbit left atria. Similarly, R-PIA had no significant effect on basal cAMP levels or isoproterenol-induced increases in cAMP in the presence of adenosine deaminase to remove the influence of endogenous adenosine. Pretreatment of rabbits with 1.75 micrograms/kg pertussis toxin attenuated both the direct negative inotropic response of left atria to NECA and responses to NECA in the presence of isoproterenol and forskolin to a similar extent. Pretreatment of left atrial preparations with the potassium channel antagonist 4-aminopyridine resulted in a dose dependent attenuation of responses to NECA alone and in the presence of isoproterenol and forskolin. These data suggest that adenosine receptors in rabbit left atria are not coupled to adenylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The interaction of adenosine analogues with cAMP-generating and cAMP-independent positive inotropic agents in rabbit left atrium. 196 30

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

We have investigated the presence of endogenous adenosine and of mechanisms for adenosine uptake and release in chick embryo retinal neurons and photoreceptors grown in purified cultures in the absence of glial cells. Simultaneous autoradiographic and immunocytochemical analysis showed that endogenous adenosine and the uptake mechanism for this nucleoside colocalize in practically all the photoreceptors, but only in approximately 20% of the neurons. Approximately 25% of the neurons showed either immunocytochemical labeling or autoradiographic labeling, while greater than 50% of the neurons were unlabeled with both techniques. [3H]Adenosine uptake was saturable and could be inhibited by nitrobenzylthioinosine and dipyridamole and by pretreatment of the [3H]adenosine with adenosine deaminase. Although these observations indicate that the uptake is specific for adenosine, only 35% of accumulated radioactivity was associated with adenosine, with the remaining 65% representing inosine, hypoxanthine, and nucleotides plus uric acid. Adenosine as well as several of its metabolites were released by the cells under basal as well as K(+)-stimulated conditions. Potassium-enhanced release was blocked by 10 mM CoCl2 or in Ca2(+)-free, Mg2(+)-rich solutions. The results indicate that retinal cells that synthesize, store, and release adenosine differentiate early during embryogenesis and are therefore consistent with a hypothetical role for adenosine in retinal development.
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PMID:Analysis of adenosine immunoreactivity, uptake, and release in purified cultures of developing chick embryo retinal neurons and photoreceptors. 221 12

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

Adenosine is known to induce rapid cardioplegic arrest and to improve postischemic recovery in the isolated rat heart. Long exposures to high doses of adenosine impair postischemic recovery, however. In this paper we tested the combination of low-dose adenosine (1 mmol/L) with potassium (26 mmol/L), with the aim of achieving rapid arrest (as with high-dose adenosine) but eliminating the need for postarrest washout of adenosine. Cardioplegic solutions studied were (1) Krebs-Henseleit potassium (26 mmol/L) (K); (2) K plus adenosine (1 mmol/L) (KA); (3) K plus an adenosine deaminase inhibitor [erythro-9-(2-hydroxy-3-nonyl)adenine] (0.1 mmol/L) (KE); and as control (4) Krebs-Henseleit potassium (6 mmol/L) (C). We induced cardiac arrest in Langendorff-perfused rat hearts by infusing the cardioplegic solution for 3 minutes at 3 ml/min. Total ischemia lasted 20 minutes at 37 degrees C, followed by reperfusion for 30 minutes. High potassium decreased the arrest time from 260 +/- 16 seconds (group C, mean values +/- standard error of the mean) to 22 +/- 4 seconds (group K). A further decrease to 10 +/- 2 seconds was observed with KA (p = 0.016 versus K). KE, which increased endogenous adenosine, gave intermediate effects. All hearts recovered during reperfusion; the product of developed tension and heart rate (grams per minute) was superior in KA hearts (6250 +/- 740 versus K hearts 4380 +/- 390; p = 0.050). KE gave an intermediate result (5290 +/- 900), while C showed the worst recovery (3180 +/- 830). Our electrophysiologic studies with sinus node and atrial tissue suggest that adenosine induced hyperpolarization and an increase in potassium permeability, thereby arresting the sinus node before depolarization of the membrane by potassium (26 mmol/L). We conclude that low-dose adenosine as an adjunct to potassium shortens the arrest time in this model and improves postischemic recovery.
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PMID:Adenosine as adjunct to potassium cardioplegia: effect on function, energy metabolism, and electrophysiology. 239 80

1. The effects of purinergic stimulation on action potential, force of contraction, 86Rb efflux and 45Ca uptake were investigated in guinea-pig left atria. 2. Adenosine exerted a negative inotropic effect which was antagonized by adenosine deaminase but enhanced by dipyridamole. 3. The negative inotropic effect of adenosine was mimicked by 5'-(N-ethyl)-carboxamido-adenosine (NECA) and the isomers of N6-(phenyl-isopropyl)-adenosine, R-PIA and S-PIA. NECA and R-PIA were about 100 times more potent than adenosine, whereas R-PIA was about 100 times more potent than S-PIA. 4. The inotropic effects of adenosine (in the presence of dipyridamole), NECA, R-PIA and S-PIA were competitively antagonized either by theophylline (pA2 about 4.5) or 8-phenyltheophylline (pA2 about 6.3). 5. NECA and R-PIA shortened the action potential duration and increased the rate constant of the efflux of 86Rb in a concentration-dependent manner with no differences in potency; the effects were competitively antagonized by 8-phenyltheophylline. 6. Barium ions reduced the efflux of 86Rb under control conditions and antagonized the increase induced by NECA and R-PIA. 7. NECA and R-PIA significantly reduced 45Ca uptake in beating preparations. 8. It is concluded that adenosine, NECA and R-PIA activate a common receptor population (P1 or A3) on the outside of the cell membrane of atrial heart muscle to increase the potassium conductance and to reduce the action potential and, thereby, calcium influx and force of contraction.
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PMID:Characterization of adenosine receptors in guinea-pig isolated left atria. 279 Mar 80

Calcium entry blocking activities of adenosine and its potentiating compounds (dipyridamole, lidoflazine and dilazep) were studied in potassium (100 mmol/l) depolarized, dog, large coronary artery strips, in comparison to nifedipine, verapamil and diltiazem. Apparent pA2 values were calculated by using concentration-response curves for calcium before and 30 min after the addition of each dilator drug. The order of potency (using both pA2 and IC50 values) for the calcium entry blocking effect was: nifedipine greater than verapamil greater than diltiazem greater than lidoflazine greater than dilazep. Dipyridamole and adenosine had negligible calcium entry blocking activities (about 10,000 times less potent than verapamil). The calcium entry blocking activity of verapamil (using pA2 values) was 39.8 times less potent than nifedipine, and 3.6, 21.4 and 97.7 times more potent than diltiazem, lidoflazine and dilazep, respectively. The maximum relaxations induced by adenosine (3.7 X 10(-4) mol/l) and dipyridamole (5 X 10(-5) mol/l) were less than 20% that of 3 X 10(-4) mol/l papaverine. However, the other test drugs caused 80-90% relaxation under similar conditions. The relaxing effect of adenosine was inhibited by 8-phenyltheophylline (adenosine receptor antagonist) and potentiated by EHNA (an adenosine deaminase inhibitor), while dilazep-induced relaxation was not affected by these drugs. These findings suggest that the calcium entry blocking effect of dilazep in dog, large coronary artery strips is not mediated through adenosine.
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PMID:Calcium entry blocking activity of dilazep in dog coronary artery. 301 2

We investigated the effects of dissolved CO on isolated potassium-arrested (K+) perfused rat hearts. Hearts from male Sprague-Dawley rats were perfused via the aorta with oxygenated Krebs-Henseleit solution containing 20 mM K+. Coronary flow (Qt) averaged 48.8 +/- 1.6 (SE), 48.1 +/- 1.7, and 55.6 +/- 1.7 ml/min/g dry wt when the perfusate was equilibrated with 95% O2-5% CO2, 5% N2-90% O2-5% CO2, and 5% CO-90% O2-5% CO2, respectively. The change in Qt was statistically significant when CO was present in the perfusion medium, but was not significant when N2 was present. Furthermore, the effect was reversible because coronary flow returned to control levels when CO was removed. Myocardial oxygen consumption (MVO2) did not change significantly when hearts were perfused with either N2 or CO. The magnitude of CO-induced vasodilation was not affected significantly by the addition of either 5 microM propranolol, 2 microM phentolamine, 1 unit of adenosine deaminase, or 0.1 mM indomethacin to the perfusate. In addition, CO reversed the vasoconstrictive effects of the alpha-agonist methoxamine. These results indicate that CO exerts a vasodilatory effect on coronary vasculature that is not the result of decreased O2 content in the perfusate and is not mediated by adrenergic influences, adenosine, or prostaglandins.
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PMID:Studies on the mechanism of carbon monoxide-induced vasodilation in the isolated perfused rat heart. 303 46

Extracellular and intracellular recordings from CA1 pyramidal neurones of rats in vitro were used to study the effects of endogenous and exogenously applied adenosine. The adenosine receptor antagonist, caffeine, enhanced the intracellular recorded e.p.s.p.-i.p.s.p. sequence evoked by stimulation of the stratum radiatum which is antagonized by exogenous adenosine. The late, potassium dependent i.p.s.p. was not antagonized. The adenosine uptake inhibitor, nitrobenzylthioinosine (NBTI), mimicked the effects of exogenously applied adenosine. The effects of NBTI and of exogenously applied adenosine were antagonized by caffeine in the same manner. Exposure to adenosine deaminase enhanced the evoked field e.p.s.p. During this enhancement caffeines effects were significantly reduced. In low calcium high magnesium medium which abolishes synaptic activity, adenosine deaminase increased, NBTI decreased cell firing. We conclude that endogenous adenosine, release by a calcium independent mechanism, can exert an inhibitory tone on CA1 neurones in vitro. This is consistent with a role for adenosine as a mediator of negative feedback between the metabolic state and electrophysiological activity of nervous tissue.
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PMID:Endogenous adenosine inhibits hippocampal CA1 neurones: further evidence from extra- and intracellular recording. 341 93

A method for the chromatographic separation of human adenosine deaminase (ADA) from murine and monkey ADA is described. This procedure was developed in order to detect the expression of low or moderate levels of human ADA following retroviral-mediated gene transfer of cloned human ADA gene sequences into both mouse and monkey cells. Protein separation was achieved on a Mono Q (HR 5/5) anion-exchange column using the Pharmacia fast protein liquid chromatography system and was found to be a highly reproducible method yielding enzymatically active protein. An increasing linear gradient extending from 0.05 to 0.5 M potassium chloride (pH 7.5) was used to elute the enzyme. Under these conditions, most human ADA does not bind to the column and elutes in the low-salt buffer (0.05 M KCl), while murine ADA elutes at 0.12 M KCl and monkey ADA at 0.15 M KCl. The column fractions were assayed for ADA activity, and the characteristic isozyme banding patterns for human, mouse, and monkey ADA were confirmed by starch gel electrophoresis. This procedure allows the rapid and reproducible separation of human ADA from that of other species and yields partially purified enzymatically active protein.
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PMID:Separation of human from mouse and monkey adenosine deaminase by ion-exchange chromatography following retroviral-mediated gene transfer. 361 12

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