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)

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

This study was aimed to determine whether singlet oxygen (1O2) attenuates 5'-nucleotidase activity in the ischemic myocardium. Isolated rat hearts were exposed to either exogenous 1O2 produced by irradiating rose bengal or 40-min ischemia and reperfusion. Ecto-5'-nucleotidase activity was inhibited by exogenous 1O2 (3.74 +/- 0.38 mumol/min/g dry weight), when compared with normal control (7.52 +/- 0.41 mumol/min/g dry weight; P < 0.05). The enzymatic activity was significantly preserved by histidine (25 mM)--a 1O2 scavenger (7.04 +/- 0.61 mumol/min/g dry weight; P < 0.05 v rose bengal group). After ischemia, the activity of ecto-5'-nucleotidase was greatly reduced (2.51 +/- 0.25 mumol/min/g dry weight), when compared with normal control. Histidine significantly enhanced ecto-5'-nucleotidase activity (6.55 +/- 0.52 mumol/min/g dry weight, P < 0.05 v ischemic control). Adenosine release was consistent with ecto-5'-nucleotidase activity. The time course studies of effects of 1O2 on coronary flow, cardiac function, and LDH release revealed that the damage by 1O2 to ecto-5'-nucleotidase activity and adenosine release primarily accounted for impaired coronary flow, cardiac dysfunction, and impaired cardiac metabolism. Lipid peroxidation induced by exogenous 1O2 or ischemia was in parallel with ecto-5'-nucleotidase deactivation by 1O2. It is concluded that 1O2 causes inactivation of ecto-5'-nucleotidase and attenuation of adenosine release which could possibly be one of the important mechanisms of oxygen radical-mediated myocardial injury.
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PMID:Interaction of singlet oxygen with 5'-nucleotidase in rat hearts. 859 96

Monophosphoryl lipid A (MLA), a derivative of the minimal substructure of lipopolysaccharide (lipid A) possesses immunomodulatory activity of the parent lipid A yet enjoys reduced toxicity. It has previously been reported that pretreatment with MLA reduces myocardial infarct size and stunning in dogs following ischemia and reperfusion. The aim of this study was to evaluate the ability of monophosphoryl lipid A (MLA) to preserve global cardiac function and peripheral hemodynamics in a rabbit model of prolonged regional ischemia (90 min), and reperfusion (6 h). An evaluation of potential mechanisms by which MLA may preserve cardiac function was also undertaken. Single dose pretreatment with MLA (35 micrograms/kg i.v.) 24 h prior to ischemia resulted in significant improvement in left ventricular developed pressure, dP/dt, rate-pressure product and mean arterial pressure during reperfusion (P < 0.05 v control). Although in this model of prolonged ischemia MLA pretreatment did not reduce infarct size (54.5 +/- 11.4% in control v 63.3 +/- 8.3% in MLA, P = N.S.), evaluation of myocardial adenylate and adenosine catabolite pools at the end of ischemia indicated a preservation of ATP and ADP and a decreased production of downstream adenosine catabolites including inosine, xanthine and uric acid. Adenosine kinase, but not 5'-nucleotidase (5'-NTase) or adenosine deaminase activity determined following reperfusion was 76% and 60% higher (P < 0.05) in non-risk and post-ischemic myocardium of MLA pretreated rabbits compared with controls. Although there was a trend toward lower tissue myeloperoxidase activity in post-ischemic myocardium from treated rabbits, the results were not significantly different from control animals. These results suggest that a 24-h pretreatment with MLA, without further treatment during ischemia or reperfusion was associated with: (1) preservation of global myocardial function during reperfusion; (2) preservation of myocardial high energy adenylates and reduced formation of adenosine catabolites during ischemia; (3) elevated myocardial adenosine kinase activity. Increased recycling of adenosine to phosphorylated nucleotides may result from MLA's affect on adenosine kinase, which could explain the drugs effect on adenylate and adenosine metabolite pools.
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PMID:Preservation of global cardiac function in the rabbit following protracted ischemia/reperfusion using monophosphoryl lipid A (MLA). 874 27

Both ischemic preconditioning and pretreatment with the endotoxin derivative monophosphoryl lipid A (MLA) protect the heart against infarction, yet the cellular mechanisms responsible for the cardioprotection achieved with either intervention are unknown. Using pentobarbital-anesthetized dogs, we tested the hypothesis that increased activity of 5'-nucleotidase (5'-NT), the enzyme that catalyzes the formation of adenosine from AMP, may play a role. Twenty-two dogs underwent 1 h of coronary occlusion and 4 h of reperfusion: eight controls received no intervention, seven animals were preconditioned with four 5-min episodes of brief ischemia, and seven received MLA (35 micrograms/kg iv) 24 h previously. Collateral blood flow was measured by injection of radiolabeled microspheres, infarct size was delineated by tetrazolium staining, and myocardial 5'-NT activities were measured by quantifying the release of adenosine from AMP. Despite comparable values of collateral blood flow in all groups, infarct size was reduced in preconditioned and MLA-treated dogs vs. controls. In addition, 5'-NT activities were increased throughout the heart with preconditioning and MLA treatment. However, single and multivariate regression analyses revealed no correlation between infarct size and 5'-NT activities for either treatment group. In fact, in the preconditioned cohort, animals with the highest enzyme activities developed the largest infarcts. This dissociation between infarct size and 5'-NT suggests that increased activity of 5'-NT is not the mechanism by which preconditioning or MLA treatment protects the canine heart against infarction.
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PMID:Cardioprotection with ischemic preconditioning and MLA: role of adenosine-regulating enzymes? 885 35

Intracellular AMP hydrolysis probably produces sufficient adenosine in ischemic heart to exert physiological activity. Because data on adenosine-producing systems in human heart are scarce, we measured 1) formation of adenosine (catabolites) in ischemic human heart slices and 2) cytoplasmic 5'-nucleotidase activity in human left ventricle. We also measured the latter in rat ventricle and cardiomyocytes. During the first 5 min of incubation, adenosine production in slices (n = 5) equaled 26 +/- 10 (SD) nmol.min-1.g wet wt-1, and total AMP content was 0.81 +/- 0.46 mM. Cytoplasmic IMP-preferring 5'-nucleotidase activity in homogenates of human heart (N-II, 167 +/- 78 mU/g, n = 23) was significantly higher than that of the AMP-preferring one (N-I, 107 +/- 61 mU/g, n = 24). Both isozymes were two to three times more active in rat heart than in human heart. Rat cardiomyocytes contained comparable amounts of the two 5'-nucleotidases. Kinetics of N-I isolated from explanted human heart displayed features similar to the enzyme from animal heart, with a Michaelis constant of 1.5 mM under maximally stimulated conditions. This form can provide the amount of adenosine found in ischemic slices. In conclusion, human heart shows lower cytosolic 5'-nucleotidase activities than rat heart. Nevertheless, cytosolic 5'-nucleotidase activity in human heart can easily account for adenosine formation during ischemia.
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PMID:Soluble forms of 5'-nucleotidase in rat and human heart. 896 93

Preconditioning is an effective mean of protecting the heart against prolonged ischemia by pretreating it with a minor insult, and the present paper reviews various controversies in this highly active field of research. In many models, adenosine plays a role by triggering the activation of protein kinase C. It may work in conjunction with other agents, such as bradykinin, but the putative role of noradrenaline is uncertain. Regulation of the enzyme producing adenosine (i.e., 5'-nucleotidase) has been reported during preconditioning but, because its activity does not seem to be associated with infarct size, it is unlikely that the hydrolase plays a pivotal role. Controversial data have been published on the involvement of mitochondrial ATPase, which may be ascribed to the poor time resolution of the experiments described; however, we do not believe that either acidosis or tissue ATP are important factors in triggering preconditioning. The role of glycolysis in the preconditioning effect remains to be firmly established; opposite mechanisms are activated in low-flow and stop-flow protocols. Although species differences regarding preconditioning exist, they seem to be more of a quantitative than a qualitative nature. The phenomenon could be clinically relevant because evidence is accumulating that preconditioning may take place during bypass surgery and coronary angioplasty if longer balloon-occlusion times are used.
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PMID:Controversies in preconditioning. 911 Jan 21

The objective of this work was to determine whether normothermic global cardiac ischemia in a porcine model was associated with a change in the density (Bmax) of voltage-dependent calcium channels in myocardial sarcolemmal membranes. Pigs were anesthetized, a thoracotomy was performed, and samples were taken of the left and right ventricles from control and ischemic hearts. Dihydropyridine-binding sites were quantified using [3H]isradipine, and 5'-nucleotidase activity was measured by the liberation of inorganic phosphate from adenosine monophosphate. Bmax and dissociation constants and 5'-nucleotidase activity for control and ischemic tissues, respectively, were compared by using Student's t-test for unpaired samples. After normothermic global ischemia, the Bmax of [3H]isradipine binding increased in the left ventricle by 81% (299% +/- 1.7% to 540% +/- 11% fmoles/mg, P < 0.01) and in the right ventricle by 33% (387% +/- 9.9% to 515% +/- 38% fmoles/mg, P < 0.01) compared with control. 5'-nucleotidase activity increased by 48% in the left ventricle and by 96% in the right ventricle (p < 0.05). Fifteen minutes of normothermic ischemia in the pig is associated with marked sarcolemmal abnormalities, including increases in specific dihydropyridine binding and 5'-nucleotidase activity, which reflect global changes in membrane function, which might contribute to the increase in myoplasmic calcium during ischemia.
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PMID:Global ischemia increases the density of voltage-dependent calcium channels in porcine cardiac sarcolemma. 914 17

Ischemic preconditioning has been proposed to protect the heart against infarction by increasing 5'-nucleotidase (5'-NT) activities and augmenting adenosine levels during sustained coronary artery occlusion. To test this theory, anesthetized dogs received four 5-min episodes of preconditioning ischemia, pretreatment with the pharmacological "preconditioning mimetic" monophosphoryl lipid A (MLA, 35 micrograms/kg i.v.) or no intervention before coronary artery ligation. At 20 min into occlusion (the crucial time at which myocyte death begins in this model), myocardial samples were obtained for measurement (by high-performance liquid chromatography) of ectosolic and cytosolic 5'-NT activity and adenosine levels. Preconditioning and MLA pretreatment limit infarct size in the canine model by 75 and 50%, respectively. However, only MLA augmented 5'-NT activity [i.e., cytosolic 5'-NT in the ischemic subendocardium was 26 +/- 1, 39 +/- 7, and 26 +/- 6 nmol. mg protein-1. min-1 in preconditioned, MLA, and control groups (P < 0.05), respectively]. Moreover, adenosine levels (in nmol/mg protein) were increased with MLA treatment (2.30 +/- 0.44) but attenuated in preconditioned dogs (1.11 +/- 0.23; P < 0.05) versus controls (1.87 +/- 0.29). Thus 5'-NT and adenosine levels need not be increased beyond control values during sustained occlusion to elicit cardioprotection.
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PMID:Disparate effects of preconditioning and MLA on 5'-NT and adenosine levels during coronary occlusion. 927 14

This study was undertaken to clarify factors other than nitric oxide involved in reactive hyperemia after a short (30 sec) and a long (300 sec) coronary global no-flow ischemia in isolated rat hearts perfused at a constant pressure (90 mmHg) with special focuses on the contribution of various K channels including large and small conductance Ca-activated K (KCa) channels as well as ATP-sensitive K (KATP) channels. Reactive hyperemia was induced following 30 sec and 300 sec of no-flow ischemia of the heart. Coronary reactive hyperemia was observed even after the inhibition of nitric oxide synthase by N(omega)-nitro-L-arginine methylester (L-NAME). Selected K channel blockers, none of which affected the basal flow, were used to evaluate contribution of K channels to this L-NAME-resistant reactive hyperemia. After 30-sec ischemia, tetraethylammonium (TEA: a non-selective K channel blocker), glibenclamide (Gli: a KATP channel blocker) and alpha,beta-methylene adenosine 5'-diphosphonate (AOPCP: an inhibitor of ecto 5'-nucleotidase) all suppressed both peak flow/basal flow (%PF) and repayment of flow debt (%RFD). After 300-sec ischemia, TEA and charybdotoxin (ChTX: a large conductance KCa channel blocker) decreased %PF and %RFD; AOPCP decreased both %RFD and duration, 4-aminopyridine (a voltage-dependent K channel blocker) decreased only duration. Neither apamin (a small conductance KCa channel blocker) nor indomethacin (a cyclooxygenase inhibitor) affected the both types of reactive hyperemia. These findings suggest that opening of KATP channel contributes to coronary vasodilation in reactive hyperemia after short 30-sec ischemia, and that opening of KCa, but not KATP, channel contributes to it after long 300-sec ischemia. These results also suggest that adenosine may partly be involved in both types of reactive hyperemia.
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PMID:Types of potassium channels involved in coronary reactive hyperemia depend on duration of preceding ischemia in rat hearts. 929 38

The effect of ischemia on the reactive expression of ecto-5'-nucleotidase in rat brain was studied 6 h and 1, 2 and 7 days after permanent middle cerebral artery occlusion (MCAO). The distribution of 5'-nucleotidase in the infarcted brain was compared to markers for astrocytes (glial fibrillary acidic protein (GFAP)) and microglia (complement receptor type 3, antibody OX42) using histological staining or immunohistochemistry. 5'-Nucleotidase could be associated with reactive astrocytes by immunohistochemistry and with reactive microglia by enzyme histochemistry. In the untreated control 5'-nucleotidase was associated with astrocytes only in the hippocampus and the submeningeal space. After ischemia the enzyme was expressed on reactive astrocytes in the tissue surrounding the volume of infarction. Individual reactive astrocytes were observed 6 h after MCAO and the astrocytic expression became continuously enhanced during the following days. An enzyme histochemical analysis of 5'-nucleotidase activity revealed a postischemic increase in reaction product around the infarcted tissue. Seven days after MCAO a discrete band (0.2-0.4 mm) of reaction product characterized the rim of the infarcted area. This band of activity of 5'-nucleotidase colocalized with a band of immunoreactivity for OX42, indicative of an intense accumulation of 5'-nucleotidase expressing microglia. Our results suggest that ischemia following permanent MCAO results in an upregulation of the capacity for the hydrolysis of nucleotides within the tissue adjacent to the infarcted volume. Nucleotides released from the damaged cells can be hydrolyzed and the adenosine eventually formed may exert neuroprotective functions limiting the extent of damage.
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PMID:Focal cerebral ischemia enhances glial expression of ecto-5'-nucleotidase. 935 5


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