Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.3.5 (5'-nucleotidase)
3,167 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although dipyridamole has been extensively studied as an anti-aggregating agent, its mechanism of action has not been elucidated. Cultured mesangial cells were treated with dipyridamole 1-100 microM from 6-72 h. Ecto-5'-nucleotidase activity approximately doubled (from 115 +/- 11 to 226 +/- 14 nmol/min/mg) after treatment with 100 microM dipyridamole for 72 h. This effect was concentration- and time-dependent. Cycloheximide, an inhibitor of protein synthesis, did not alter basal 5'-nucleotidase activity. However, it prevented stimulation by 5 microM dipyridamole. Adenosine availability at the receptor sites was increased by dipyridamole and S-(p-nitrobenzyl)-6-thioinosine (NBTI), which inhibit adenosine uptake into the cell. Addition of dipyridamole or NBTI to the adenosine-treated mesangial cells produced an additive increase in ecto-5'-nucleotidase activity. Dipyridamole, through its effect on extracellular adenosine and ecto-5'-nucleotidase, may have an influence upon regulation of the glomerular microcirculation.
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PMID:Effect of dipyridamole on glomerular mesangial cell ecto-5'-nucleotidase expression. 795 70

Adenosine, an important regulator of many cardiac functions, is produced by ectosolic and cytosolic 5'-nucleotidase. The activity of these enzymes is influenced by several ischemia-sensitive metabolic factors, e.g., ATP, ADP, H+, and inorganic phosphate. However, there is no clear evidence that adenosine itself affects 5'-nucleotidase activity. This study tested whether adenosine decreases the activity of ectosolic and cytosolic 5'-nucleotidase. Cardiomyocytes were isolated from adult male Wistar rats and suspended in the modified Hepes-Tyrode buffer solution. After stabilization, isolated cardiomyocytes were incubated with and without adenosine (10(-9) - 10(-4) M). Ectosolic and cytosolic 5'-nucleotidase activity was decreased by exogenous adenosine (ectosolic 5'-nucleotidase activity, 20.6 +/- 2.3 vs. 8.6 +/- 1.6 mumol/min per 10(6) cells [P < 0.05]; cytosolic 5'-nucleotidase activity, 2.47 +/- 0.58 vs. 1.61 +/- 0.54 mumol/min per 10(6) cells [P < 0.05] at 10(-6) M adenosine) after 30 min. The decrease in ectosolic and cytosolic 5'-nucleotidase activity was inhibited by 8-phenyltheophylline and pertussis toxin, and was mimicked by N6-cyclohexyladenosine, an adenosine A1 receptor agonist. Neither CGS21680C, and A2 receptor agonist, nor cycloheximide deactivated ectosolic and cytosolic 5'-nucleotidase. Thus, we conclude that activation of adenosine A1 receptors is coupled to Gi proteins and attenuates ectosolic and cytosolic 5'-nucleotidase activity in rat cardiomyocytes.
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PMID:Evidence for deactivation of both ectosolic and cytosolic 5'-nucleotidase by adenosine A1 receptor activation in the rat cardiomyocytes. 798 2

Histochemical techniques were employed to study the tissue distribution of hydrolytic enzymes in adult female Onchocerca fasciata (Filarioidea: Onchocercidae). Different tissues differed considerably in the localization and distribution of the six enzymes studied. Acid phosphatase (AcPase) activity was detected in the cuticle, hypodermis and reproductive organs. Alkaline phosphatase (AlkPase) activity was largely absent. Adenosine triphosphatase (ATPase) was found in the somatic musculature and muscles of the uterine ducts, whereas 5'-nucleotidase (5'-Nu) was restricted to young oocytes and dividing embryos in the female worm. Strong glucose-6-phosphatase (G-6-Pase) activity was demonstrated in the uterine epithelial cells and microfilariae, as was weak activity in the hypodermis. Naphthylamidase (NAM) activity was detected in the hypodermis, with lower activity occurring in the somatic musculature. The possible functions of these enzymes are discussed with respect to their location. The hydrolytic enzymes AcPase and NAM in the body wall are probably involved in absorptive-digestive functions, NAM in the somatic musculature may be concerned with tissue protein turnover, and ATPase, 5'-Nu and G-6-Pase may have a role in active transport and energy metabolism.
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PMID:Histochemical distribution of hydrolytic enzymes in adult Onchocerca fasciata (Filarioidea: Onchocercidae). 803 35

Adenosine methylene diphosphate (AMPCP), a 5'-nucleotidase inhibitor, was evaluated as an adjunct to cold crystalloid cardioplegic myocardial protection. Cardiopulmonary bypass (CPB) was instituted at 28 degrees C in two groups of mongrel dogs (each, n = 6). Myocardial ischemia was induced for 150 min by aortic cross clamping. Crystalloid cardioplegia (4 degrees C) was infused into the aortic root at 15 ml/kg/20 min in the control group (CP). The experimental group (CP + AMPCP) received identical doses of cardioplegia supplemented with 250 microM AMPCP. While on CPB, the mean arterial pressure was 70 mm Hg and the myocardial temperature ranged from 16 to 22 degrees C. Hemodynamic parameters were recorded prior to institution of CPB and at 15 and 45 min following the termination of CPB. Starling curves were constructed for cardiac index (CI), mean arterial pressure (MAP), mean left ventricular pressure (LVP), +dP/dt and -dP/dt at each time point for left atrial pressures between 5 and 12.5 mm Hg. The area under each curve was calculated and expressed as a percentage of prebypass values. Statistical analysis was performed with Student's two-tailed t test. The data demonstrate that although recovery of CI, MAP, heart rate, and LVP was similar in both groups, statistically significant improvement in recovery of myocardial compliance (-dP/dt) and systolic function (+dP/dt) was seen with AMPCP. The addition of the 5'-nucleotidase inhibitor, AMPCP, to cold crystalloid cardioplegia enhances postischemic myocardial performance in vivo and may be useful during prolonged periods of global myocardial ischemia.
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PMID:5'-Nucleotidase inhibition enhances postischemic myocardial performance. 815 30

Examination of prostasomes, isolated from human seminal plasma, showed that there was very little remaining paranitrophenylphosphatase activity when assayed in the presence of 10 mmol/l of tartrate and 2 mmol/l of levamisole. Under these conditions it was possible to study the prostasome membrane-bound 5'-nucleotidase activity, which was unaffected by these two inhibitors. The activity was considered to be located at the external surface of the prostasome membrane and a 50-60% increase in activity was obtained by the addition of 0.05% Triton X-100. The prostasome membrane-linked 5'-nucleotidase readily hydrolysed 5'-AMP. Two other 5'-nucleoside monophosphates, 5'-IMP and 5'-GMP, were also hydrolysed, but more slowly; 2'- or 3'-AMP were practically not attacked. The prostasome membrane-linked 5'-nucleotidase obeyed Michaelis-Menten kinetics. Apparent Km for 5'-AMP was 11.2 +/- 2.1 mumol/l and Vmax 64.7 +/- 11.4 nmol/mg protein/min. These figures were somewhat changed in presence of 0.05% Triton X-100, the Km value being reduced by 30% and the Vmax value increased by 60%. Adenosine 5' (alpha, beta methylene) diphosphate (100 mumol/l), Ni2+ (10 mmol/l) and concanavalin A (20 micrograms/ml) were all potent inhibitors of the prostasome membrane-linked 5'-nucleotidase.
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PMID:Characteristics of membrane-bound 5'-nucleotidase on human prostasomes. 822 68

Adenosine may be protective in acute vascular injury by inhibiting platelet aggregation and neutrophil oxidant release. In contrast, adenine nucleotides, which may be released with acute vascular injury, stimulate platelet aggregation and neutrophil oxidant release. Ectonucleotidases, membrane enzymes that catabolize extracellular nucleotides, are the primary mechanism for degrading circulating nucleotides to adenosine. Ecto-5'-nucleotidase converts extracellular AMP to adenosine. We hypothesized that endothelial cell injury alters ecto-5'-nucleotidase activity. Using a novel assay first reported by Jamal et al. (Biochem J 250: 369-373, 1988) with rat adipocytes, we studied the properties of ecto-5'-nucleotidase in intact monolayers of cultured bovine pulmonary artery endothelial cells (BPAEC) and examined the effect of endotoxin on enzyme activity. The assay uses a fluorescent analog of AMP, 1,N6-etheno-AMP (E-AMP), as the substrate for ecto-5'-nucleotidase, and measures ethenoadenosine (E-Ado) formation. Etheno-AMP in Hepes buffer, pH 7.4, at 22 degrees, was added to confluent monolayers of BPAEC; samples of supernatant were collected after various intervals, and E-AMP and E-Ado were quantitated by HPLC. Using these methods we found a Km of 15 +/- 6 microM, a pH optimum of 7.48, minimal effect of MgCl2 or CaCl2 at physiologic pH, and inhibition by alpha,beta-methylene ADP, a known 5'-nucleotidase inhibitor. We established that the monolayer assay was indeed measuring cell surface associated 5'-nucleotidase. To determine the effect of endotoxin, we incubated confluent monolayers with endotoxin in Minimal Essential Medium plus 10% fetal bovine serum for 24 hr, washed them, and assessed the conversion of E-AMP to E-Ado by the endotoxin-injured cells. Endotoxin stimulated endothelial ecto-5'-nucleotidase activity. This increase in 5'-nucleotidase activity in response to endotoxin injury may represent an important clearance mechanism for circulating adenine nucleotides and may be protective in acute vascular injury by increasing adenosine production.
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PMID:A simple assay for ecto-5'-nucleotidase using intact pulmonary artery endothelial cells. Effect of endotoxin-induced cell injury. 824 Mar 97

Previous work has shown that normoxic isolated rat hepatocytes continuously produce adenosine from AMP and that the nucleoside is not catabolized further but immediately rephosphorylated by adenosine kinase [Bontemps, Van den Berghe and Hers (1983) Proc. Natl. Acad. Sci. U.S.A. 80, 2829-2833]. We now report the effect of anoxia on adenosine production and on the AMP/adenosine substrate cycle. In cell suspensions incubated in O2/CO2, the adenosine concentration was about 0.4 microM. It increased 30-fold in cells incubated in N2/CO2 or with 5 mM KCN, and 20-fold in cells incubated with 2 mM amytal. Adenosine production, measured in hepatocytes in which adenosine kinase and adenosine deaminase were inhibited by 5-iodotubercidin and deoxycoformycin respectively, was about 18 nmol/min per g of cells in normoxia; it increased about 2-fold in anoxia, although AMP increased 8-16-fold in this condition. From studies with inhibitors of membrane 5'-nucleotidase and of S-adenosylhomocysteine hydrolase, it was deduced that adenosine is produced by the latter enzyme and by cytosolic 5'-nucleotidase in normoxia, and by cytosolic and membrane 5'-nucleotidases in anoxia. Unlike in normoxic hepatocytes, inhibition of adenosine kinase by 5-iodotubercidin neither elevated the adenosine concentration nor enhanced total purine release from adenine nucleotides in cells treated with N2/CO2 or KCN; it had only a slight effect in cells treated with amytal. This indicates that recycling of adenosine is suppressed or profoundly inhibited in anoxia. The rate of accumulation of adenosine in anoxia was several-fold lower than the rate of its rephosphorylation upon reoxygenation. It is concluded that the elevation of adenosine in anoxic hepatocytes is much more dependent on decreased recycling of adenosine by adenosine kinase than on increased production by dephosphorylation of AMP.
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PMID:Mechanisms of elevation of adenosine levels in anoxic hepatocytes. 838 43

Adenosine is recognised as an important regulator of myocardial function and coronary vascular tone in the ischaemic myocardium. It is produced by the enzymatic dephosphorylation of 5'-AMP by 5'-nucleotidase and the hydrolysis of SAH by SAH-hydrolase. 5'-Nucleotidase is thought to contribute to adenosine production aside from the accumulation of 5'-AMP in the ischaemic myocardium, while the hydrolysis of SAH plays a major role in adenosine production in the normoxic myocardium. 5'-Nucleotidase activity is reported to increase adenosine production through accumulation of ATP, ADP, H+, Mg2+ and inorganic phosphate during ischaemia. In addition, we have found that alpha 1 adrenergic receptors, activated in ischaemic hearts, increase both 5'-nucleotidase activity and adenosine production. Inactivation of adenosine deaminase and adenosine kinase may also contribute to adenosine production. On the other hand, the major role of endogenous adenosine is to increase coronary blood flow. This adenosine induced coronary vasodilatation is amplified by alpha 2 adrenoceptor stimulation. Adenosine induced vasodilatation is also enhanced by increasing H+ and opening ATP sensitive K+ channels, which occurs in the ischaemic myocardium. However, coronary vasodilatation is not the only effect of adenosine in the ischaemic myocardium. Stimulation of adenosine A2 receptors coupled to Gs proteins attenuates both free radical generation by activated leucocytes and aggregation of platelets. Adenosine A1 receptor activation coupled to G(i) proteins attenuates beta adrenoceptor mediated increases in myocardial contractility, Ca2+ influx into myocytes, and noradrenaline release from the presynaptic nerves. Any or all of these effects may attenuate ischaemic and reperfusion injury.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of adenosine and its interaction with alpha adrenoceptor activity in ischaemic and reperfusion injury of the myocardium. 838 27

1. Studies in rat polymorphonuclear leucocytes have suggested that 5'-deoxy-5'-isobutylthioadenosine (IBTA), an inhibitor of the IMP-selective cytosolic 5'-nucleotidase, may be used to test its role in adenosine formation in intact cells. We investigated adenosine formation in neonatal and adult rat cardiomyocytes. 2. 2-Deoxyglucose (30 mM) with oligomycin (2 micrograms/ml) induced a 90-100% fall in ATP concentration in 10 min in neonatal and 60 min in adult heart cells. Adenosine accumulation was substantially increased, accounting for 13% of the fall in ATP concentration in neonatal cells and 56% in adult cells. 3. Anti-(rat liver ecto-5'-nucleotidase) serum did not inhibit adenosine accumulation. Furthermore, dipyridamole (10 microM), a nucleoside-transport blocker, inhibited by 80% the appearance of the newly formed adenosine in the medium, showing that adenosine is produced intracellularly by both adult and neonatal-rat myocytes in response to inhibition of oxidative metabolism. 4. IBTA (3 mM) inhibited by 80% the appearance of adenosine in the medium, but did not inhibit total adenosine accumulation by neonatal-rat myocytes and only modestly inhibited total adenosine accumulation by adult myocytes. 5. IBTA, like dipyridamole, inhibited incorporation of extracellular adenosine (10 microM) into neonatal and adult ventricular myocyte nucleotides by 60-70%. Transport of IBTA (100 microM) into the cells did not appear to be inhibited by dipyridamole (30 microM). 6. We conclude that IBTA acted primarily to inhibit adenosine release from myocytes. The small effect on adenosine formation rates implies that the IMP-selective cytosolic 5'-nucleotidase plays a minor role in this tissue.
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PMID:Effect of 5'-deoxy-5'-isobutylthioadenosine on formation and release of adenosine from neonatal and adult rat ventricular myocytes. 848 9

Adenosine has a major regulatory function in the heart and many tissues. Our previous work showed that a cytosolic (not a membrane, as previously hypothesized) 5'-nucleotidase from dog heart has the kinetic properties consistent with it being the enzyme responsible for adenosine formation from adenosine 5'-monophosphate (AMP) in response to hypoxia or ischemia. In the present study, we evaluated the spatial distribution of AMP-specific cytosolic 5'-nucleotidase in dog heart using electron microscopic immunogold localization. Polyclonal antibodies raised against purified cytosolic 5'-nucleotidase recognized the 43-kd subunit of the enzyme on Western blots of both purified enzyme and the soluble fraction of dog heart homogenates but did not react with proteins extracted from the membrane fraction. Purified cytosolic 5'-nucleotidase and 5'-nucleotidase activity present in the soluble fraction of heart homogenates were inhibited by anti-cytosolic 5'-nucleotidase, but the membrane fraction was not. The monospecific antibodies against the cytosolic 5'-nucleotidase were used for electron microscopic immunogold localization of cytosolic 5'-nucleotidase in dog heart tissue sections. Cytosolic 5'-nucleotidase was found in the cytoplasm of red blood cells, cardiac myocytes, and endothelium; the plasma membrane and interstitium were devoid of gold label. These results are the first to document the presence cytosolic 5'-nucleotidase in specific cell types in the heart and demonstrate the potential for these cell types to produce adenosine via cytosolic 5'-nucleotidase.
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PMID:Immunogold localization of adenosine 5'-monophosphate-specific cytosolic 5'-nucleotidase in dog heart. 850 99


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