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)

The growth inhibitory activity of tiazofurin toward adenosine kinase deficient Chinese hamster ovary (CHO) cells was partially reversed by the presence of nicotinamide riboside. Similarly, the formation of tiazofurin 5'-monophosphate and the active metabolite, tiazofurin 5'-adenine dinucleotide could be partially inhibited by 100 microM nicotinamide riboside in CHO cells and substantially inhibited (80-90%) in adenosine kinase deficient cells. Tiazofurin phosphorylating activity from CHO cell extracts was resolved into two peaks by DEAE-cellulose chromatography. The first peak of activity was identified as adenosine kinase (ATP:adenosine 5'-phosphotransferase, EC 2.7.1.20). The second peak of activity correlated with a previously described 3-deazaguanosine phosphorylating activity that was identified as a nicotinamide ribonucleoside kinase. Contaminating purine nucleoside phosphorylase was removed by sedimentation through a sucrose density gradient which also resolved the tiazofurin phosphorylating activity into two peaks, one requiring just ATP and the other requiring both ATP and IMP. Of the substrates tested with the lower density peak, nicotinamide riboside was most efficient and was the only natural substance that competed well with tiazofurin for phosphorylation, substantiating its suggested identity as a nicotinamide ribonucleoside kinase. The apparent Km value for nicotinamide riboside (2 microM) was significantly less than that for tiazofurin (13.6 microM). ATP was the best phosphate donor; CTP and UTP were utilized less efficiently and IMP did not support the reaction. The best substrate for the higher density peak of tiazofurin phosphorylation was inosine and both ATP and IMP were required for the reaction, suggesting its identity as a 5'-nucleotidase. In summary, it appears that adenosine kinase, nicotinamide ribonucleoside kinase, and 5'-nucleotidase may all contribute to the phosphorylation of tiazofurin in CHO cells.
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PMID:Tiazofurin is phosphorylated by three enzymes from Chinese hamster ovary cells. 214 86

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

Three forms of 5'-nucleotidase purified from human placenta (two membrane-bound forms, one sensitive and one resistant to cleavage by phosphatidylinositol-specific phospholipase C, as well as a soluble form) had the same molecular weight before (73,000 Da) and after (56,000 Da) digestion with N-glycosidase F and showed similar amino acid compositions, N-terminal amino acid sequences, and KMs for IMP (9.6 to 11.9 microM). Thus, these three forms of 5'-nucleotidase appear to have very similar structures. The form sensitive to phosphatidylinositol-specific phospholipase C contained nearly 1 mol myo-inositol/mol of protein as determined by mass spectrometry, indicating a glycosyl phosphatidylinositol membrane anchor. Soluble 5'-nucleotidase contained a similar quantity of myo-inositol, suggesting that it was previously membrane-anchored via glycosyl phosphatidylinositol. The form resistant to phosphatidylinositol-specific phospholipase C contained less myo-inositol, leaving open the possibility of a third form of 5'-nucleotidase with a conventional transmembrane anchor.
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PMID:Characterization of soluble vs membrane-bound human placental 5'-nucleotidase. 217 22

1. Activity of "high Km" 5'-nucleotidase was investigated in the soluble fractions from cultured human T- and B-lymphoblasts. 2. Using gel filtration chromatography and 5'-AMP-Sepharose 4B affinity chromatography, it separated high Km 5'-nucleotidases from other two different soluble nucleoside 5'-phosphomonoesterase activities. 3. The molecular mass of the high Km enzymes from T- and B-lymphoblasts were 210 and 200 kDa, respectively. The optimum pH was at 6.5, and the Km values for IMP and AMP were 0.4 and 0.9 mM, respectively. 4. These properties of high Km 5'-nucleotidases were similar to those previously described from different tissues. These data indicate that soluble high Km 5'-nucleotidase coexists with "low Km" enzyme.
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PMID:Soluble "high Km" 5'-nucleotidase activity in human T- and B-lymphoblasts: isolation and some properties. 225 52

1. A 5'-nucleotidase was purified from pig lung to apparent homogeneity. 2. Its kinetic properties were similar to those of the previously reported cytoplasmic 5'-nucleotidase, which preferentially hydrolyses IMP and GMP. 3. It was a tetramer composed of 69 kDa subunit. 4. It was effectively stimulated by diadenosine tetraphosphate and glycerate 2,3-bisphosphate.
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PMID:Pig lung 5'-nucleotidase: effect of diadenosine 5',5'''-P1, P4-tetraphosphate and its related compounds. 233 4

A soluble 5'-nucleotidase was purified 200-fold from pigeon heart. The enzyme (1) had an apparent molecular mass close to 150 kDa, (2) had a neutral pH optimum and hydrolysed a wide range of nucleoside 5'-monophosphates with a 15-fold preference for AMP over IMP, (3) at near-physiological concentrations of AMP was activated by ADP but not by ATP, (4) was inhibited by high Mg2+ concentration and high ionic strength, (5) was weakly inhibited by p-nitrophenol phosphate and Pi, and (6) was non-competitively inhibited more potently by 5'-deoxy-5'-isobutylthioinosine than by 5'-deoxy-5'-isobutylthioadenosine, but not by [alpha,beta-methylene]ADP. The data show that the enzyme is distinct from the ecto-5'-nucleotidase and from the previously purified IMP-specific 5'-nucleotidase. They also predict that the enzyme is activated during ATP catabolism and hence will generate a more-than-linear increase in the adenosine-formation rate in response to an increase in cytosolic AMP concentration.
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PMID:Partial purification and properties of an AMP-specific soluble 5'-nucleotidase from pigeon heart. 234 53

Intracellular adenosine formation and release to extracellular space was studied in WI-L2-B and SupT1-T lymphoblasts under conditions which induce or do not induce ATP catabolism. Under induced conditions, B lymphoblasts but not T lymphoblasts, release significant amounts of adenosine, which are markedly elevated by adenosine deaminase inhibitors. In T lymphoblasts, under induced conditions, only simultaneous inhibition of both adenosine deaminase activity and adenosine kinase activities resulted in small amounts of adenosine release. Under noninduced conditions, neither B nor T lymphoblasts release adenosine, even in the presence of both adenosine deaminase or adenosine kinase inhibitors. Comparison of B and T cell's enzyme activities involved in adenosine metabolism showed similar activity of AMP deaminase, but the activities of AMP-5'-nucleotidase, adenosine kinase and adenosine deaminase differ significantly. B lymphoblasts release adenosine because of their combination of enzyme activities which produce or utilize adenosine (high AMP-5'-nucleotidase and relatively low adenosine kinase and adenosine deaminase activities). Accelerated ATP degradation in B lymphoblasts proceeds not only via AMP deamination, but also via AMP dephosphorylation into adenosine but its less efficient intracellular utilization results in the release of adenosine from these cells. In contrast, T lymphoblasts release far less adenosine, because they contain relatively low AMP-5'-nucleotidase and high adenosine kinase and adenosine deaminase activities. In T lymphoblasts, AMP formed during ATP degradation is not readily dephosphorylated to adenosine but mainly deaminated to IMP by AMP deaminase. Any adenosine formed intracellularly in T lymphoblasts is likely to be efficiently salvaged back to AMP by an active adenosine kinase. In general, these results may suggest that adenosine can be produced only by selective cells (adenosine producers) whereas other cells with enzyme combination similar to SupT1-T lymphoblasts can not produce significant amounts of adenosine even in stress conditions.
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PMID:Selective adenosine release from human B but not T lymphoid cell line. 239 45

Evidence has been obtained for the metabolic formation of small amounts (1-2% of the ATP pool) of 3-deazaadenosine 5'-triphosphate (c3ATP) from 3-deazaadenosine (c3Ado) in mouse cytolytic lymphocytes and mouse resident peritoneal macrophages. With intact leukocytes, pharmacological evidence was obtained that adenosine kinase was not the enzyme chiefly responsible for the phosphorylation of c3Ado. Moreover, in the presence of MgCl2, NaCl and IMP, purified rat liver 5'-nucleotidase catalyzed the phosphorylation of c3Ado to 3-deazaadenosine 5'-monophosphate (c3AMP). Two lines of evidence suggest that the metabolic formation of c3ATP is not involved in the inhibition of leukocyte function caused by c3Ado. First, the inhibitory action of c3Ado on antibody-dependent phagocytosis and lymphocyte-mediated cytolysis was reversed markedly upon removal of the drug from the medium. However, the intracellular content of c3ATP remained constant in lymphocytes and macrophages after removal of c3Ado. Second, in macrophages and in lymphocytes, similar intracellular amounts of c3ATP were formed from both c3Ado and 3-deazaadenine under conditions in which the former was biologically active and the latter was essentially inactive. Thus, it appears unlikely that the novel c3ATP metabolite is of relevance for the mechanism of action of c3Ado in mouse leukocytes.
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PMID:3-Deazaadenosine 5'-triphosphate: a novel metabolite of 3-deazaadenosine in mouse leukocytes. 253 81

Three distinct 5'-phosphomonoesterase activities were isolated from soluble fractions of human placenta, cultured human T and B lymphoblasts, and rat liver using 5'-AMP-sepharose 4B affinity chromatography. We define these activities as "low-Km" 5'-nucleotidase, "high-Km" 5'-nucleotidase, and nonspecific phosphatase. High-Km 5'-nucleotidase was eluted with 0.5 M NaCl, low-Km 5'-nucleotidase was eluted with 10 mM ADP, and nonspecific phosphatase was not retained on the column. We have found significant variability in the relative content of high- to low-Km activities in the tissues studied with the ratios ranging from 5.5 to 264. The properties were studied after further purification. The molecular mass of the low-Km enzymes ranged from 72.5 to 209 kDa, optimum pH ranged from 7.4 to 9.0, Km for AMP ranged from 7 to 15 microM, and Km for IMP ranged from 10 to 26 microM. The molecular mass of the high-Km enzymes ranged from 182 to 210 kDa, pH optimum was at 6.5, Km for AMP ranged from 3.0 to 9.4 mM, and the Km for IMP ranged from 0.3 to 0.5 mM. The data indicate that the soluble low- and high-Km 5'-nucleotidase coexist in the mammalian cells and tissues studied. These observations suggest a complex system for the regulation of nucleoside 5'-monophosphate dephosphorylation.
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PMID:AMP and IMP dephosphorylation by soluble high- and low-Km 5'-nucleotidases. 253 71

Studies are reviewed that show that in isolated rat hepatocytes subjected to anoxia, the catabolism of AMP, leading to uric acid instead of to allantoin in normoxia, proceeds almost exclusively by deamination of AMP followed by dephosphorylation of IMP. Adenosine, which is nearly undetectable in normoxic cell suspensions, accumulates to a slight extent in anoxia. The regulatory properties of liver AMP deaminase and cytosolic IMP-GMP 5'-nucleotidase were found to provide protective mechanisms for the hepatic adenine nucleotide pool in hypoxia.
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PMID:Pathways and control of adenine nucleotide catabolism in anoxic rat hepatocytes. 254 79


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