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 aim of this study was to determine the dual role of ATP as an energy substrate and as a major source of oxygen-derived free-radical-mediated reperfusion injury by using adenine nucleoside blocker, p-nitrobenzylthioinosine (NBMPR), and adenosine deaminase inhibitor, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA). In a randomized study, 16 dogs were instrumented with minor-axis LTZ-piezoelectric crystals and intraventricular pressure transducers to monitor, off bypass, left ventricular performance by using a sensitive and load-independent index of contractility (slope of the stroke work-end-diastolic length relation). Hearts were subjected to 60 minutes of normothermic global ischemia and 120 minutes of reperfusion. Normal saline without (Group 1, n = 8) or with (Group 2, n = 8) NBMPR and EHNA was infused in three boluses into the cardiopulmonary bypass reservoir before ischemia and reperfusion. Transmural serial biopsies were obtained before and during ischemia and reperfusion and analyzed for myocardial adenine nucleotide pool intermediates by using high-performance liquid chromatography. In the control group, three hearts developed ischemic contracture and another three hearts exhibited cardiogenic shock during reperfusion. In the EHNA/NBMPR-treated group, left ventricular performance recovered within 30 minutes of reperfusion (p less than 0.05 vs. control). Myocardial ATP was depleted to 20% of normal in both groups by the end of ischemia (p less than 0.05). Intramyocardial adenosine in the EHNA/NBMPR-treated group was 12-fold greater (15.09 +/- 1.6 nmol/mg protein) than the control group at the end of the ischemic period (p less than 0.05). Inosine was about fourfold higher in the control group (19.07 +/- 1.50 nmol/mg protein) compared with the drug-treated group (p less than 0.05). During reperfusion, myocardial ATP levels increased to approximately 50% of normal in the EHNA/NBMPR group while remaining depressed (20% of normal) in the control group. Thus, despite the dramatic loss of myocardial ATP during ischemia, complete recovery of ventricular performance and significant repletion of ATP during reperfusion were observed when adenosine transport and deamination were modulated during ischemia and reperfusion. These results suggest that 1) the myocardium may have more ATP than is needed for basic cardiac functions and 2) washout of ATP diffusible catabolites is detrimental to ventricular performance during reperfusion. Specific blockade of nucleoside transport resulted in complete functional recovery despite low but critical ATP levels.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Is adenosine 5'-triphosphate derangement or free-radical-mediated injury the major cause of ventricular dysfunction during reperfusion? Role of adenine nucleoside transport in myocardial reperfusion injury. 193 94

(R)- and (S)-2'-deoxycoformycin, (R)-coformycin, and the corresponding 5'-monophosphates were compared as inhibitors of yeast AMP deaminase. The overall inhibition constants ranged from 4.2 mM for (S)-2'-deoxycoformycin to 10 pM for (R)-coformycin 5'-monophosphate, a difference of 3.8 x 10(8) in affinities. (R)-Coformycin, (R)-2'-deoxycoformycin 5'-monophosphate, and (R)-coformycin 5'-monophosphate exhibited both rapid and slow-onset inhibition. The S inhibitors and (R)-2'-deoxycoformycin exhibited classical competitive inhibition but no time-dependent onset of inhibition. The results indicate that the presence of the 2'-hydroxyl and 5'-phosphate and the R stereochemistry at the C-8 position of the diazepine ring are necessary for the optimum interaction of inhibitors with yeast AMP deaminase. This differs from the results for rabbit muscle AMP deaminase [Frieden C., Kurz, L. C., & Gilbert, H. R. (1980) Biochemistry 19, 5303-5309] and calf intestinal adenosine deaminase [Schramm, V. L., & Baker, D. C. (1985) Biochemistry 24, 641-646], in which a tetrahedral hydroxyl at C-8 in the R stereochemistry is sufficient for slow-onset inhibition with the coformycins. The results suggest that the transition state contains a tetrahedral carbon with the R configuration as a result of the direct attack of an oxygen nucleophile at C-6 of AMP. Slow-onset inhibition of yeast AMP deaminase is consistent with the mechanism [formula: see text] in which the combination of E and I is rapidly reversible. For these inhibitors, Ki varied by a factor of 3 x 10(3), and the overall inhibition constant (Ki*) varied by a factor of 2 x 10(5).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The rate constant describing slow-onset inhibition of yeast AMP deaminase by coformycin analogues is independent of inhibitor structure. 225 96

Stimulation of sympathetic fibers or infusion of norepinephrine (NE) into the superior mesenteric artery (SMA) leads to an initial decrease in intestinal blood flow, which is followed by a return of flow toward the base-line value (autoregulatory escape) despite continued nerve stimulation or NE infusion. Although the mechanisms responsible for "autoregulatory escape" have not been defined, accumulation of vasodilator metabolites is frequently invoked to explain this phenomenon. Inasmuch as histamine and adenosine exist in high concentrations in the intestinal mucosa and both are potent vasodilators, we examined the effects of chlorpheniramine (an H1 blocker) and adenosine deaminase (degrades adenosine) on autoregulatory escape from NE infusion. In autoperfused piglet intestinal preparations, we measured SMA blood flow and the arteriovenous oxygen difference during intra-arterial NE infusion before and after blockade with chlorpheniramine or adenosine deaminase. Adenosine deaminase pretreatment increased the peak vasoconstrictor and reduced the steady-state escape responses to NE infusion. Chlorpheniramine did not affect either the vasoconstrictor or escape responses. The oxygen uptake changes induced by NE infusion were not dramatically modified by either treatment. These results indicate that adenosine but not histamine is responsible for at least part of the escape of intestinal blood flow from NE infusion.
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PMID:Autoregulatory escape from norepinephrine infusion: roles of adenosine and histamine. 245 33

Our recent studies have indicated that release of ATP/ADP from platelets causes enhanced O2-. responses in stimulated neutrophils. The current investigations were designed to provide further details of this phenomenon, to determine the structure-function correlates of the adenine compounds, and to assess if the results might be explained by the formation of a single metabolic product of ATP. ATP, ADP, AMP and adenosine enhanced O2-. responses of rat neutrophils stimulated with immune complexes or formyl chemotactic peptide (FMLP) but had no effect on responses of phorbol ester-stimulated neutrophils. Similar results were obtained in human neutrophils stimulated with immune complexes; when FMLP was the agonist, the results were divergent: ATP and ADP enhanced the responses, whereas AMP and adenosine were inhibitory. In structure-function studies, hydrolytically resistant forms of ATP (and other adenine nucleotides) containing blocked or cross-linked phosphate groups were active, suggesting that hydrolysis of these compounds to a common metabolic product is not required for their effects on O2-. responses. In contrast, other chemical modifications of the ribose ring or adenine base of ATP resulted in greatly diminished activity. To further pursue the question of whether metabolism of the adenine compounds via the adenosine pathway was related to the observed effects on O2-. responses, addition to rat neutrophils of inhibitors of adenosine deaminase, S-adenosyl homocysteine hydrolase, or xanthine oxidase failed to reproduce or augment the enhancement effects of the adenine compounds on O2-. responses, suggesting that metabolism of the adenine compounds to a common product may not be a requirement for the observed effects. Although the manner by which the adenine compounds affect O2-. responses is not known, the data suggest that adenosine and adenine nucleotides have important regulatory effects on oxygen radical responses of stimulated neutrophils.
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PMID:Regulatory effects of adenosine and adenine nucleotides on oxygen radical responses of neutrophils. 283 59

Of the various species of cellular 5'-nucleotidases, membranous, lysosomal and cytosolic, only the latter are likely to play a role in the physiologic dephosphorylation of the 5'-nucleoside monophosphates present in the cytoplasm. The necessity to preserve cellular ATP renders a strict control of the dephosphorylation as well as of the deamination of AMP mandatory, because both nucleotides are maintained in equilibrium by adenylate kinase. Our studies of cytosolic purine 5'-nucleotidases purified from rat liver and from human erythrocytes, reviewed in this presentation, have shown that both display complex kinetic properties. Both enzymes have markedly higher affinities for IMP and for GMP than for AMP. In addition, they are stimulated by nucleoside triphosphates, among them ATP and GTP, and inhibited by Pi. The erythrocytic purine 5'-nucleotidase is also stimulated by glycerate 2,3-bisphosphate. It could thus be expected that under conditions of ATP and GTP breakdown, particularly when accompanied by an increase in Pi, the dephosphorylation of AMP would be curtailed. To verify this hypothesis, experiments were performed with isolated rat hepatocytes and with human red blood cells. The rate of dephosphorylation of AMP was measured by following time-wise the production of adenosine in the presence of coformycin (or deoxycoformycin) and 5-iodotubercidin. The coformycins inhibit the deamination of adenosine into inosine by adenosine deaminase, and 5-iodotubercidin inhibits the recycling of adenosine into AMP by adenosine kinase. Upon induction of ATP catabolism by the addition of fructose to isolated rat hepatocytes, the dephosphorylation of AMP was nearly completely suppressed. In accordance with these results, the activity of the rat liver cytosolic 5'-nucleotidase, assayed in the presence of concentrations of substrate and effectors mimicking those measured in intact cells following the addition of fructose, was decreased as compared to control conditions. In hepatocytes in which ATP catabolism was induced by suppression of oxygen, the rate of dephosphorylation of AMP increased about 3-fold. However, in contradiction with these data, the activity of the cytosolic 5'-nucleotidase, measured under conditions mimicking anoxia, decreased markedly. In human erythrocytes, dephosphorylation of AMP did not occur under physiologic conditions, but proceeded when ATP catabolism was induced by glucose lack or by alkalinization. The rate of dephosphorylation of AMP was 3-fold higher during glucose deprivation than under alkaline conditions.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cytosolic purine 5'-nucleotidases of rat liver and human red blood cells: regulatory properties and role in AMP dephosphorylation. 285 49

This study examines the possibility that endogenous adenosine modulates efficiency in isovolumic perfused rat hearts stimulated with isoproterenol or norepinephrine. Efficiency in these hearts is calculated as the rate of pressure work divided by the myocardial oxygen consumption. Within 2 min of infusion of isoproterenol (50 nM), heart rate increased by 35%, the rate pressure product by 290%, oxygen consumption by 142%, and efficiency by 67%. Infusion of adenosine deaminase (2-4 IU/ml), or 8-phenyltheophylline (5 microM), into stimulated hearts augmented the increase in heart rate by 40-45%, rate-pressure product by 18-20%, and oxygen consumption by 50-55%. Efficiency was reduced by 30-35%. Adenosine release into the coronary venous effluent increased from 195 +/- 20 pmol/min/g to 2400 +/- 180 pmol/min/g after 5 min. A similar pattern of results was observed when norepinephrine (0.1 mM) was used. The results indicate that extracellular adenosine, released by catecholamine treatment, inhibits the effects of the catecholamines on rate and contractility. Consequently, adenosine reduces cardiac work (rate-pressure product), but in so doing, improves efficiency.
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PMID:Endogenous adenosine improves work rate to oxygen consumption ratio in catecholamine stimulated isovolumic rat heart. 292 87

The 5'-nucleotidase and adenosine deaminase activities were determined for tissue extracts of up to 10 defined regions of the normal dog heart. The specific activity of 5'-nucleotidase was very significantly higher in atrial than in ventricular myocardium (4 X) and was also higher in right than in left sites of the heart (2 X). The reason for the markedly higher specific activity in atrial muscle is not clear and appears paradoxical relative to adenine nucleotide content and pattern of ATP decay during oxygen deprivation. In contrast to 5'-nucleotidase activity the total adenosine deaminase activity was found to be similar in all sampling sites examined.
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PMID:Relative activities of 5'-nucleotidase and adenosine deaminase in atrial and ventricular myocardium--the enzyme paradox. 302 11

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

To test the hypothesis that adenosine contributes to the coronary hyperaemia produced by regional non-ischaemic myocardial hypoxia coronary blood flow and myocardial oxygen extraction and consumption were continuously monitored in 21 anaesthetised open chest dogs under the following conditions: control 1--postinstrumentation, steady state control; hypoxia 1--3-5 min of regional (LAD) hypoxaemia (partial pressure of oxygen, PO2, 21.4(2.0) mmHg (3.1(0.2) kPa), coronary arterial oxygen content, CaO2, 3.9(0.4) ml.100 ml-1 (39(4) ml.litre-1): control 2--repeat steady state control; and hypoxia 2--3-5 min repeat regional hypoxaemia (PO2 18.9(2.4) mmHg (2.5(0.3) kPa); CaO2 3.6(0.6) ml.100 ml-1 (36(6) ml.litre-1) blood). Left anterior descending artery perfusion pressure was held constant for all conditions. Control 2 and hypoxia 2 were performed in the presence of locally infused adenosine deaminase (n = 16) or saline vehicle (n = 5). The 16 dogs given adenosine deaminase were further subdivided into those perfused with blood deoxygenated by a donor canine lung (group 1, n = 11) and those perfused with blood from a paediatric oxygenator (group 2, n = 5). Systemic haemodynamics, heart rate, and coronary arterial PO2 and O2 contents were similar during the two control periods and during the two exposures to hypoxia in all three groups. Left anterior descending artery blood flow increased by approximately 400% (p less than 0.05) in all three groups during the first exposure to hypoxia. Myocardial oxygen consumption was unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adenosine deaminase attenuates canine coronary vasodilatation during regional non-ischaemic myocardial hypoxia. 319 18

Myocardial adenosine (ADO) has long been regarded as a regulator of coronary blood flow. In other tissues, such as adipose and skeletal muscle, much attention has focused on the role of ADO as a metabolic regulator of the actions of insulin. In the present study, we determined the effect of ADO infusion on insulin-stimulated myocardial glucose uptake (MGU). Mongrel dogs of either sex were instrumented to obtain arterial-coronary sinus differences for glucose, lactate, and oxygen. These were multiplied by circumflex artery blood flow (Q) to obtain uptake values. Measurements were made before and during hyperinsulinemic (4 U/min)-euglycemic clamp (clamp) with intracoronary infusions of saline, ADO, adenosine deaminase (ADA), or nitroprusside (NP). During clamp, MGU increased from a basal value of 3.0 +/- 0.8 mg/min (mean +/- SE) to 5.53 +/- 0.8 mg/min. Adenosine infusion potentiated this response, raising MGU further to 9.02 +/- 1.1 mg/min while not significantly affecting lactate or oxygen uptakes. Infusion of ADA confirmed the specificity of the response by blocking the metabolic effect of exogenously infused ADO. When NP was infused, Q increased significantly without altering MGU, indicating that the metabolic response to ADO was independent of the changes it caused in Q. A dose-response relationship existed between ADO and insulin-stimulated MGU. The metabolic response to ADO was more sensitive than the vasodilator response. It is concluded that ADO acts as a regulator of insulin in heart. This metabolic regulation occurs independent of changes in coronary blood flow.
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PMID:Adenosine potentiates insulin-stimulated myocardial glucose uptake in vivo. 328 95

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