EC:3.1.3.5 - FACTA Search

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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)

Intact astrocytes cultured from newborn rat cerebral cortex rapidly converted extracellular ATP to ADP. The ATPase responsible was apparently not saturated, even at 750 microM ATP. In contrast, the conversion of ADP to AMP was slow, and the reaction was limiting for the subsequent dephosphorylation process. Adenosine formation was the only fate for AMP. The reaction was catalyzed by 5'-nucleotidase with an apparent Km of 55 microM for AMP and appeared to be inhibited by high concentrations of ATP and ADP. Astrocytes were able to take up adenosine with an apparent Km value of 45 microM. Uptake was inhibited by dipyridamole but not by anti-5'-nucleotidase IgG. The results support the proposal that astrocytes play a role in modulating synaptic events involving ATP and adenosine.
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PMID:Metabolism of extracellular adenine nucleotides by cultured rat brain astrocytes. 191 71

Ribavirin enhances the anti-human immunodeficiency virus activity of 2',3'-dideoxyinosine (ddIno) in MT-4, CEM and peripheral blood lymphocyte cells. Ribavirin causes an increase in the levels of IMP, the presumed phosphate donor for the conversion of ddIno to ddIMP by 5'-nucleotidase. Consequently, ribavirin stimulates the conversion of ddIno to its antivirally active metabolite ddATP. Ribavirin also causes a marked depletion of the guanine nucleotide pools. The increase in IMP pool levels may result from (i) a direct inhibitory effect of ribavirin 5'-monophosphate on IMP dehydrogenase (which converts IMP to XMP) and (ii) an indirect inhibition of adenylosuccinate synthetase by the decreased GTP and dGTP pools (since GTP is an obligatory cofactor in the conversion of IMP to succinyl AMP). GTP depletion plays a key role in the accumulation of IMP and the resultant higher rate of ddIno phosphorylation to ddIMP and eventually ddATP. Our findings are in agreement with the observations that guanosine and 2'-deoxyguanosine, but not 2'-deoxyadenosine, reverse (i) the stimulatory effect of ribavirin on the anti-human immunodeficiency virus activity of ddIno and (ii) the accumulation of endogenous IMP pools as well as accumulation of [3H]IMP from exogenous [3H]hypoxanthine in ribavirin-treated cells.
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PMID:Mechanism of the potentiating effect of ribavirin on the activity of 2',3'-dideoxyinosine against human immunodeficiency virus. 193 81

1. A rapid method for the determination of AMP and IMP by HPLC is described. 2. Its application to the assay of AMP deaminase allows the specific determination of enzyme activities in crude extracts, eliminating any interference by other enzyme systems (5'-nucleotidase and adenosine deaminase). 3. The method was routinely used for the determination of the AMP deaminase activity in the muscles of marine animals.
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PMID:A specific AMP deaminase assay and its application to tissue homogenates. 195 22

Mature macrophages (Mph) differentiated in culture from normal human peripheral blood monocytes (Mo) exhibit low activity as accessory cells (antigen-presenting cells) in T lymphocyte stimulation. A test system was established based on mitogenicity to quantitate the accessory activity of Mph-derived cells and to follow its changes for several days. The system used accessory cells treated with the oxidative mitogen, sodium periodate. The cells were subsequently co-cultured with pooled human lymphocytes from a cryopreserved stock. DNA synthesis in these cells was used as an indicator of accessory activity. Mph could be converted within 5-6 days into highly active accessory cells if a continuous stimulus of exogenously added dibutyryl cyclic AMP (db-cAMP) was provided. Mph treated by db-cAMP retained a high degree of HLA-DR expression but typical Mph markers such as non-specific esterase, phagocytosis, and expression of Fc-receptors were down-regulated. Acid phosphatase and myeloperoxidase underwent only slight changes, while the monocyte marker 5'-nucleotidase remained undetectable. Morphologically, the cells rounded up and developed veils and dendritiform elongations. In contrast to dendritic cells, Mph-derived accessory cells retained the CD14 antigen characteristic of monocytes and Mph. It is concluded that Mph are able to respond to exogenous stimuli and to convert into a highly active accessory cell. This contrasts to the well-known state of the 'activated Mph' with respect to markers and function. Both states appear to be antagonistically controlled by intracellular second messengers, as the accessory cell phenotype is positively correlated with intracellular cyclic AMP increase, whereas Mph activation correlates with cyclic GMP increase.
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PMID:Accessory phenotype and function of macrophages induced by cyclic adenosine monophosphate. 196 93

5'-Nucleotidase activity was assayed in 105,000-g supernatants from rat brain by following conversion of [3H]AMP into adenosine. The effect of ATP on this process was complex and suggested the presence of at least two soluble 5'-nucleotidase activities: one inhibited by ATP and another activated by ATP. The relative proportions of these activities differed considerably among brain regions. Activity changes induced by hypothyroidism also suggested that these activities may be regulated independently. These findings may have consequences for the regional regulation of adenosine formation in the brain.
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PMID:Soluble 5'-nucleotidase activities in rat brain. 198 16

5'-Nucleotidase I (N-I) from rabbit heart was purified to homogeneity. After ammonium sulfate precipitation, the purification involved chromatography on phosphocellulose, DEAE-Sepharose, AMP-agarose, and ADP-agarose. The pure enzyme has a specific activity of 318 mumol (mg of protein)-1 min-1. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate yields a subunit molecular weight of 40,000. N-I is activated by ADP but not by ATP, in contrast to the 5'-nucleotidase (N-II) purified by Itoh et al. (1986), which is activated by ATP and, less well, by ADP. N-I displays sigmoidal saturation kinetics in the absence of ADP and hyperbolic kinetics in the presence of ADP. Partially purified N-I was previously shown to prefer AMP over IMP as substrate (Truong et al., 1988); this has been confirmed for pure N-I. Comparison of AMP and ADP concentrations reported to occur in heart with the kinetic behavior of N-I implicates N-I as the enzyme responsible for producing adenosine under conditions leading to a rise in ADP and AMP, such as hypoxia or increased workload. N-I is not activated by the ADP analogue adenosine 5'-methylenediphosphonate (AOPCP) and is only weakly inhibited by relatively high concentrations of AOPCP, in contrast to 5'-nucleotidase from plasma membrane, which is powerfully inhibited by this analogue. N-I shows an absolute dependence on Mg2+ ions. Mn2+ and Co2+ ions can replace Mg2+ ions as activator; Ni2+ and Fe2+ are much less effective, while Ca2+, Ba2+, Zn2+, and Cu2+ fail to activate the enzyme.
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PMID:5'-Nucleotidase I from rabbit heart. 199 69

5'-Nucleotidase of a human pancreatic tumor cell line (PaTu II) has been purified to homogeneity after extraction with detergent followed by two affinity chromatographic steps. Sodium dodecyl sulphate polyacrylamide gel electrophoresis of purified 5'-nucleotidase revealed a single polypeptide band of 67 kDa. The Western blotted enzyme can be overlaid with concanavalin A proving its glycoprotein nature. After treatment with endoglycosidase F the deglycosylated 5'-nucleotidase exhibits an apparent molecular mass of 58 kDa. The kinetic properties of the solubilized enzyme have been determined (Km (AMP) of 4.0 microM; Vmax (AMP) = 8.6 muMOL/min.mg). Adenosine 5'-[alpha,beta-methylene]diphosphate is a competitive inhibitor of 5'-nucleotidase, whereas concanavalin A inhibits the enzymatic activity in a non-competitive manner. Polyclonal antibodies against purified 5'-nucleotidase of PaTu II have been produced which inhibit its enzymatic activity. Polyclonal antibodies raised against the enzyme purified from rat liver or bull seminal plasma also recognize 5'-nucleotidase of PaTu II cells, whereas polyclonal and monoclonal antibodies against the enzyme derived from chicken gizzard show no cross-reactivity. 5'-Nucleotidase appears to be concentrated in the plasma membrane of PaTu II cells as judged by cell fractionation and indirect immunofluorescence studies.
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PMID:Isolation and characterization of 5'-nucleotidase of a human pancreatic tumor cell line. 199 27

The relationship between adenosine (Ado) formation and cytosolic energy status was studied in isolated guinea pig hearts during hypoperfusion plus norepinephrine infusion (0.6 nmol/min) and in isolated rat hearts during 2-deoxyglucose (2-DG) infusion. 31P nuclear magnetic resonance (31P-NMR) was used to measure phosphate concentrations, and both phosphorylation potential (expressed as [ATP]/[ADP][Pi]) and energy charge [expressed as (([ATP] + 1/2[ADP])/([ATP] + [ADP] + [AMP]))] were calculated as indexes of cytosolic energy status. Both progressive flow reductions and increasing length of exposure to 2-DG led to progressive decreases in energy charge and phosphorylation potential. In both cases, steady-state Ado release first increased then declined despite a continued fall in energy status. Inosine release followed a similar pattern. This biphasic pattern of Ado release vs. energy charge is similar to the pattern seen in in vitro studies of cytosolic 5'-nucleotidase, supporting the hypothesis that Ado formation in vivo is regulated by the influence of energy status on this enzyme. However, Ado release in vivo peaked at an energy charge much higher (0.997) than that observed in vitro (0.60-0.86). It is therefore probable that the inhibition of Ado formation in the perfused heart occurs via factor(s) in addition to energy charge.
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PMID:Adenosine formation and energy status during hypoperfusion and 2-deoxyglucose infusion. 200 Sep 87

1. Adenosine metabolizing enzymes in seminal plasma of man and bull have been investigated. 2. A different level of 5'-nucleotidase activity has been found in two seminal plasmas: in bull 5'-nucleotidase represents 80% of the total AMP dephosphorylating enzymes while in man 5'-nucleotidase represents only 1.3% of the total AMP dephosphorylating activities. 3. Apart from the different levels of 5'-nucleotidase activity, different kinetic parameters have been reported for 5'-nucleotidase, acid prostatic phosphatases, ADA and PNP. 4. Adenosine kinase, xanthine oxidase and AdoHcy-hydrolase have not been detected in the seminal plasma of man and bull.
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PMID:Adenosine metabolizing enzymes in seminal plasma of bull and man: a comparative study. 212 26

The granular ATP released from chromaffin cells during the secretory response can be hydrolyzed by ectonucleotidases that are present in the plasma membrane of these cells. The ecto-ATPase activity showed a Km for ATP of 250 +/- 18 microM and a VMAX value of 167 +/- 25 nmol/10(6) cells x min (1.67 mumol/mg protein x min) for cultured chromaffin cells, while the ecto-ADPase activity showed a Km value for ADP of 375 +/- 40 microM and a VMAX of 125 +/- 20 nmol/10(6) cells x min (1.25 mumol/mg protein x min). The ecto 5'-nucleotidase activity of cultured chromaffin cells was more specific for the purine nucleotides, AMP and IMP, than for the pirimidine nucleotides, CMP and TMP. The Km for AMP was 55 +/- 5 microM and the VMAX value was 4.3 +/- 0.8 nmol/10(6) cells x min (43 nmol/mg protein x min). The nonhydrolyzable analogs of ADP and ATP, alpha, beta-methylene-adenosine 5'-diphosphate and adenylyl-(beta, gamma-methylene)-diphosphonate were good inhibitors of ecto 5'-nucleotidase activity, the KI values being 73.3 +/- 3.5 nM and 193 +/- 29 nM, respectively. The phosphatidylinositol-specific phospholipase C released the ecto-5'-nucleotidase from the chromaffin cells in culture, thus suggesting an anchorage through phosphatidylinositol to plasma membranes. The presence of ectonucleotidases in chromaffin cells may permit the recycling of the extracellular ATP exocytotically released from these neural cells.
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PMID:Presence of ectonucleotidases in cultured chromaffin cells: hydrolysis of extracellular adenine nucleotides. 215 57

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