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)

Adenosine as well as hypoxia and ischemia are known to cause atrioventricular conduction block. To test the hypothesis that adenosine is the primary mediator of hypoxia-induced atrioventricular conduction delay in isolated perfused guinea pig hearts, we characterized a) the time courses of hypoxia-induced adenosine release and delay in atrioventricular conduction, b) the relationships between oxygen tension, adenosine concentration in the effluent, and atria-to-His-bundle interval, and c) the adenosine receptor mediating the negative dromotropic effect of hypoxia. Oxygen tension and effluent adenosine levels were linearly related with a correlation coefficient (r) of -0.85 and a slope of -6.3 +/- 0.37 pmol/min/g/torr. Likewise, oxygen tension and atria-to-His-bundle interval prolongation were linearly related with r = -0.85 and a slope of -0.180 +/- 0.013 msec/torr. The EC50 of effluent adenosine in causing atria-to-His-bundle prolongation was 0.26 +/- 0.02 microM. Adenosine deaminase, an enzyme that deaminates adenosine to inosine and is limited to the extracellular space, significantly attenuated (61%) the atria-to-His-bundle interval prolongation caused by hypoxia. This prolongation was further reduced (81%) by a combination of adenosine deaminase and theophylline, an adenosine receptor blocker. Adenosine deaminase also reduced (by 95%) the atria-to-His-bundle interval prolongation in normoxic recipient hearts caused by the effluent of hypoxic donor hearts. Several adenosine antagonists, i.e., theophylline, 8-phenyltheophylline, and 8-(p-sulfophenyl)theophylline antagonized in a dose-dependent manner the negative dromotropic effect of exogenous adenosine and hypoxia. Schild analysis of the antagonism of hypoxia-induced atria-to-His-bundle interval prolongation by 8-(p-sulfophenyl)theophylline yielded the following pA2 values: 5.30 +/- 0.25 and 5.28 +/- 0.31 using oxygen tension and effluent adenosine vs. AH interval prolongation, respectively. 8-(p-Sulfophenyl)theophylline also antagonized to an equal extent atria-to-His-bundle interval prolongations of similar magnitude caused either by adenosine or hypoxia. We conclude that 1) adenosine is the primary mediator of hypoxia-induced atrioventricular conduction delay, and 2) the adenosine receptor that mediates the negative dromotropic effect of hypoxia is similar to that of exogenous adenosine.
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PMID:Effect of adenosine on atrioventricular conduction. II: Modulation of atrioventricular node transmission by adenosine in hypoxic isolated guinea pig hearts. 379 84

Coronary autoregulation appears to be closely coupled to myocardial oxidative metabolism. Recent data suggest that coronary autoregulation depends on the prevailing balance between myocardial oxygen supply and demand. It seems likely that pO2 within a critical range may be the initial metabolic stimulus for coronary autoregulation. Whether adjustments in vascular resistance result from changes in myocardial pO2 directly or indirectly through changes in vasoactive metabolites remains unclear. The observation that intracoronary infusion of adenosine deaminase in concentrations sufficient to attenuate myocardial reactive hyperemia has no effect on coronary autoregulation strongly suggests that adenosine is not essential for autoregulation in the blood-perfused dog heart. This is supported by the recent finding that the interstitial concentration of adenosine (estimated from epicardial exudate) remained unchanged during autoregulation. Prostaglandins may play a role in autoregulation in buffer-perfused rabbit hearts but do not appear to be involved in blood-perfused dog hearts. Potassium is probably not involved in autoregulation. It is also unlikely that changes in tissue pressure can account for coronary autoregulation. The role of adenine nucleotides, hydrogen ion, carbon dioxide, and intermediate metabolites of the citric acid cycle, in coronary autoregulation has not been examined. The possibility that a myogenic mechanism contributes to coronary autoregulation has not been directly tested. Finally, it is entirely possible that coronary autoregulation may result from the concerted interaction of several different mediators or mechanisms. In this regard, it should be emphasized that blocking or destroying one mediator could elicit a compensatory increase in the contribution of another.
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PMID:Autoregulation of the coronary circulation. 380 16

The metabolic causes for immune impairment in patients with severe chronic inflammatory diseases have not been clearly defined. Recently, the overproduction of poly(ADP-ribose) in resting lymphocytes with unrepaired DNA strand breaks has been suggested to contribute to immune dysfunction in adenosine deaminase-deficient patients. Our experiments have determined to what extent DNA damage and poly(ADP-ribose) synthesis might also explain the impaired mitogen responsiveness of PBL exposed to toxic oxygen species. Treatment of normal resting human lymphocytes with xanthine oxidase and hypoxanthine dose-dependently induced DNA strand breaks and triggered the rapid synthesis of poly(ADP-ribose). Subsequently, NAD+ and ATP pools decreased precipitously. Lymphocytes exposed previously to the enzymatic oxidizing system did not synthesize DNA after stimulation with PHA. However, if the medium was supplemented with 3-aminobenzamide or nicotinamide, two compounds that inhibit poly(ADP-ribose) formation, cellular NAD+ and ATP pools were preserved, and the lymphocytes responded vigorously to a mitogenic challenge. Excessive poly(ADP-ribose) synthesis, provoked by DNA strand breakage, may represent a common pathway that connects the immunodeficiency syndromes associated with (a) exposure of lymphocytes to toxic oxygen species during chronic inflammatory states, (b) adenosine deaminase deficiency, and (c) certain DNA repair disorders.
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PMID:Lymphocyte dysfunction after DNA damage by toxic oxygen species. A model of immunodeficiency. 395 May 45

The hypothesis that adenosine mediates the coronary vasodilatory response to hypoxia was tested by determining if intracoronary infusion of the adenosine degrading enzyme, adenosine deaminase (ADA), would attenuate this response. Efficacy of ADA was also evaluated by examining its effect on the coronary responses to exogenous adenosine and to 20-s myocardial ischemia. Experiments were conducted in 14 anesthetized, open-chest dogs ventilated 3-5 min with 3% O2-5% CO2-92% N2 to induce systemic hypoxia. Under control, pre-ADA conditions, hypoxia (arterial PO2 19 +/- 2 mmHg) caused left anterior descending (LAD) coronary blood flow to increase from 100 +/- 12 to 382 +/- 47 ml X min-1 X 100 g-1 (+282%). After infusion of ADA (5 U X kg-1 X min-1 for 8-10 min) into the LAD, equally severe hypoxia (arterial PO2 18 +/- 3 mmHg) caused a significantly smaller increase in LAD flow, 79 +/- 9 to 234 +/- 41 ml X min-1 X 100 g-1 (+195%). Oxygen consumption in the LAD perfusion field was unchanged by hypoxia before ADA but fell significantly during hypoxia after ADA. ADA also attenuated significantly the coronary vasodilatory response to exogenous adenosine and to 20-s ischemia. The results of this investigation demonstrate a significant role of adenosine in the coronary vasodilatory response to systemic hypoxia.
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PMID:Adenosine deaminase attenuates canine coronary vasodilation during systemic hypoxia. 396 15

Autoregulatory adjustments in the caliber of cerebral arterioles were studied in anesthetized cats equipped with cranial windows for the direct observation of the pial microcirculation. Increased venous pressure caused slight, but consistent, arteriolar dilation, at normal and at reduced arterial blood pressure and irrespective of whether or not intracranial pressure was kept constant or allowed to increase. Arterial hypotension caused arteriolar dilation which was inhibited partially by perfusion of the space under the cranial window with artificial CSF equilibrated with high concentrations of oxygen. This vasodilation was inhibited to a greater extent by perfusion of the space under the cranial window with fluorocarbon FC-80, equilibrated with high concentrations of oxygen. CSF or fluorocarbon equilibrated with nitrogen did not influence the vasodilation in response to arterial hypotension. The response to increased venous pressure was converted to vasoconstriction when fluorocarbon equilibrated with high concentrations of oxygen was flowing under the cranial window. The vasodilation in response to arterial hypotension was inhibited by topical application of adenosine deaminase. The results show that both metabolic and myogenic mechanisms play a role in cerebral arteriolar autoregulation. Under normal conditions, the metabolic mechanisms predominate. The presence of the myogenic mechanisms may be unmasked by preventing the operation of the metabolic mechanisms. The major metabolic mechanism seems to be dependent on changes in PO2 within the brain with secondary release of adenosine.
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PMID:Oxygen-dependent mechanisms in cerebral autoregulation. 403 62

Effects of adriamycin (ADM) treatment on rat heart cells in culture were examined. ADM treatment (lug/ml) for 3 hr, 48 to 51hr of culture age, had no effect on oxygen consumption, myosin content or myosin ATPase activity. In contrast, the activities of creatine kinase, adenylate kinase and adenosine deaminase were significantly lower in ADM-treated cells than in corresponding controls at 72 and 96 hr of culture age. Fall in the activities of these key enzymes of adenine nucleotide metabolism would lead to disturbances in energy metabolism, and results in the functional impairment of heart cells.
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PMID:Effects of adriamycin on enzymes of adenine nucleotide metabolism in heart cell cultures. 408 19

The action of endogeneous adenosine on isolated hamster brown adipocytes was examined. Adenosine production from brown adipocytes was measured after labeling of the intracellular nucleotide pool with [3H]adenine. Accumulation of [3H]adenosine in the incubation medium was maximum after 5 min of incubation and was still present after 20 min. When adenosine accumulation was prevented by addition of adenosine deaminase, the stimulatory effects of isoproterenol on oxygen uptake, lipolysis, and adenosine 3',5'-cyclic monophosphate (cAMP) generation were enhanced. However, basal rates of lipolysis and oxygen consumption and levels of cAMP were not affected on addition of adenosine deaminase. A similar potentiation of isoproterenol responses was produced by the adenosine receptor antagonist, 3-isobutyl-1-methylxanthine, present at a concentration (10 microM) which did not change basal levels of respiration or lipolysis. Addition of the adenosine analogue 2-chloroadenosine antagonized isoproterenol-stimulated respiration and lipolysis and prevented potentiation of isoproterenol responses with 3-isobutyl-1-methylxanthine. To localize the site of adenosine action, activity of adenylate cyclase in membrane preparations from brown adipocytes was measured. Isoproterenol-stimulated adenylate cyclase activity was partially inhibited by 2-chloroadenosine in a GTP-dependent manner. Addition of Na+ enhanced the inhibitory effect of 2-chloroadenosine, and 3-isobutyl-1-methylxanthine blocked it. The calculated 50% effective dose for 2-chloroadenosine inhibition was between 10 and 15 nM. These data suggest that adenosine produced by brown adipocytes is an endogenous regulator of respiration in these cells acting at the level of the adenylate cyclase enzyme.
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PMID:Role of adenosine as an endogenous regulator of respiration in hamster brown adipocytes. 619 83

The effect of moderate and severe hypoxia on the electrical and mechanical activity of isolated left atria of guinea-pigs was compared in the presence and absence of coformycin, a highly specific and tight-binding inhibitor of adenosine deaminase. The myocardial actions of hypoxia (reduction in the duration of intracellularly recorded action potentials and decrease in isometric tension, maximum velocity of contraction and relaxation as well as in time to peak tension) were significantly enhanced by coformycin, when applied in a concentration of 7 mumol/l producing nearly complete inhibition of adenosine deaminase in atrial muscle. These effects of coformycin were moderate during early hypoxia (0-5 min) and became pronounced during the late phase of oxygen deprivation (5-16 min). The results are in favour of the previous assumption that under hypoxic conditions the increased tissue level of adenosine might contribute to the functional impairment of the guinea-pig myocardium.
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PMID:Effects of hypoxia on the guinea-pig myocardium following inhibition of adenosine deaminase by coformycin. 647 84

The role of adenosine in postcontraction hyperemia (PCH) following sustained, maximal isometric contractions was studied in free-flowing dog gracilis muscles. The hemodynamic responses to contraction were examined in the presence and absence of dipyridamole (an adenosine transport inhibitor), erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA, an adenosine deaminase inhibitor), or alpha, beta-methyleneadenosine-5'-diphosphate (AOPCP, an inhibitor of 5'-nucleotidase). Each muscle was stimulated to contract for 1, 3, 5, and 10 s during saline and drug infusions. For each contraction, the tension-time integral (TT), excess flow (EQ), and excess oxygen consumption (EVo2) were computed. Linear regression analyses were then performed on EQ vs. TT, EVo2 vs. TT, and EQ vs. EVo2. An alteration of the PCH response by the drug was determined as any significant change from the saline control in the slope of the linear regression of EQ vs. EVo2. Dipyridamole and EHNA caused increases of 73 and 48%, respectively, in the slope of EQ vs. EVo2, whereas AOPCP decreased the slope by 41%. The changes in the PCH produced by these drugs are consistent with the hypothesis that an increase in interstitial adenosine during muscular contraction contributes to PCH.
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PMID:Adenosine as a mediator of postcontraction hyperemia in dog gracilis muscle. 669 37

Adenosine and ATP depressed resting O2 uptake in frog sartorius. This action was blocked by low levels of caffeine and by 8-phenyltheophylline. It was mimicked by a polymer of adenosine. Adenosine also decreased radioactive calcium uptake in muscles. Potassium and magnesium content were increased while sodium and calcium content were decreased by adenosine. Adenosine did not decrease oxygen uptake in muscles from frogs sacrificed in winter months. However, adenosine deaminase, which inactivates adenosine by removing the amino group, increased oxygen uptake, calcium content and lactate release of these muscles. Our results suggest that adenosine reduces resting metabolism, possibly through reducing passive leaks of electrolytes.
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PMID:Effect of adenosine on oxygen uptake and electrolyte content of frog sartorius muscle. 697 47

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