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:3.5.4.4 (adenosine deaminase)
5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The synthesis and characterization of 8-amino-6-fluoro-9-beta-D-ribofuranosyl-9H-purine (3a) are presented. This compound is a substrate for adenosine deaminase and adenosine kinase. In L1210 cells 3a is converted to 8-aminoinosine monophosphate (4b), apparently by the action of AMP deaminase on the monophosphate of 3a, as well as to the triphosphate derivative of 3a. Pentostatin was used to inhibit adenosine deaminase, and coformycin was used to inhibit AMP deaminase in experiments designed to delineate the metabolic fate of 3a. Pentostatin was without influence on the cytotoxicity of 3a, but coformycin potentiated the cytotoxicity. The potentiation was associated with an increased cellular concentration of phosphates of 3a and a decreased concentration of 4b.
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PMID:Synthesis and biochemical properties of 8-amino-6-fluoro-9-beta-D-ribofuranosyl-9H-purine. 348 38

Purine and pyrimidine enzyme profiles of human cell lines have been investigated. A novel observation was the finding that most of the cell lines showed very low or undetectable levels of cytidine (deoxycytidine) deaminase, while they possessed pyrimidine 5'-nucleotidase, cytidine and deoxycytidine kinase activities. Most cell lines showed high levels of adenosine deaminase and purine nucleoside phosphorylase activities and low levels of purine 5'-nucleotidase. We propose that high adenosine deaminase and purine nucleoside phosphorylase activities and low cytidine deaminase activity may be of importance for immature hematopoietic cells in order to ensure a balanced synthesis of the DNA precursors.
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PMID:Low cytidine deaminase levels in human hematopoietic cell lines. 362 11

Purine-requiring mutants of Salmonella typhimurium LT2 containing additional mutations in either adenosine deaminase or purine nucleoside phosphorylase have been constructed. From studies of the ability of these mutants to utilize different purine compounds as the sole source of purines, the following conclusions may be drawn. (i) S. typhimurium does not contain physiologically significant amounts of adenine deaminase and adenosine kinase activities. (ii) The presence of inosine and guanosine kinase activities in vivo was established, although the former activity appears to be of minor significance for inosine metabolism. (iii) The utilization of exogenous purine deoxyribonucleosides is entirely dependent on a functional purine nucleoside phosphorylase. (iv) The pathway by which exogenous adenine is converted to guanine nucleotides in the presence of histidine requires a functional purine nucleoside phosphorylase. Evidence is presented that this pathway involves the conversion of adenine to adenosine, followed by deamination to inosine and subsequent phosphorolysis to hypoxanthine. Hypoxanthine is then converted to inosine monophosphate by inosine monophosphate pyrophosphorylase. The rate-limiting step in this pathway is the synthesis of adenosine from adenine due to lack of endogenous ribose-l-phosphate.
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PMID:Metabolism of exogenous purine bases and nucleosides by Salmonella typhimurium. 492 5

Purine bases and purine nucleosides pass the cell membrane by facilitated diffusion. For purine bases two different carrier proteins seem to exist. Purine bases are trapped intracellularly immediately after passage of the cell membrane by the action of purine phosphoribosyltransferases (PRTs). Comparison of kinetic data of transport and intracellular enzyme reactions shows that intracellular metabolism is rate limiting for the whole uptake process. Since phosphate stimulates the uptake of bases, limited availability of phosphoribosylpyrophosphate (PRPP) might play a regulatory role. Purine nucleosides apparently enter cells via a common carrier. Of the nucleosides under investigation, only adenosine was taken up in significant amounts. Uptake of adenosine is mainly determined by the ratio of adenosine deaminase (ADA) and adenosine kinase (AK) activities. For uptake of purine nucleotides sequential action of ecto-5'-nucleotidase (ecto-5'-NT), nucleoside carrier and intracellular metabolism is necessary. Cells without ecto-5'-NT activity did not accumulate radioactivity from nucleotides. Proliferating neoplastic cells (K 562 and HL 60 cells) showed enhanced uptake of purine bases and nucleosides, when compared to quiescent cells (erythrocytes and granulocytes). From initial rates of uptake and intracellular enzyme activities it could be concluded that this enhanced uptake was due to alterations of enzyme pattern in the neoplastic cells.
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PMID:Regulation of purine uptake in normal and neoplastic cells. 610 May 84

Purine metabolism in Leishmania donovani amastigotes was found to be similar to that of promastigotes with the exception of adenosine metabolism. Adenosine kinase activity in amastigotes is approximately 50-fold greater than in promastigotes. Amastigotes deaminate adenosine to inosine through adenosine deaminase, an enzyme not present in promastigotes. Inosine is cleaved to hypoxanthine and phosphoribosylated by hypoxanthine-guanine phosphoribosyltransferase. Promastigotes cleave adenosine to adenine and deaminate adenine to hypoxanthine via adenase, an enzyme not present in amastigotes. Hypoxanthine is phosphoribosylated by hypoxanthine-guanine phosphoribosyltransferase.
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PMID:Purine metabolism in Leishmania donovani amastigotes and promastigotes. 619 67

Adenosine receptors that modulate adenylate cyclase activity have been identified recently in a number of tissues. The purpose of these investigations was to determine the effect of adenosine on ion transport in rabbit ileum in vitro. Adenosine and some of its analogues were found to increase the short circuit current (Isc) and the order of potency was N-ethylcarboxamide-adenosine greater than or equal to 2-chloroadenosine greater than phenylisopropyladenosine greater than adenosine. Purine-intact adenosine analogues had no effect on Isc. The effect of adenosine on Isc was enhanced by deoxycoformycin, an adenosine deaminase inhibitor, and by dipyridamole, an adenosine uptake inhibitor. The increase in Isc induced by 2-chloroadenosine was partially reversed in a dose-dependent manner by 8-phenyltheophylline but not by theophylline or isobutylmethylxanthine. 2-Chloroadenosine increased cyclic AMP content, and stimulated net Cl secretion; these effects were partially blocked by 8-phenyltheophylline. These results suggest that there is an adenosine receptor on rabbit ileal mucosal cells that stimulates adenylate cyclase, which results in secondary active Cl secretion.
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PMID:Adenosine and adenosine analogues stimulate adenosine cyclic 3', 5'-monophosphate-dependent chloride secretion in the mammalian ileum. 620 92

Purine nucleosides, which accumulate in adenosine deaminase and purine nucleoside phosphorylase deficiency, are toxic to lymphoid cells. Since adenine nucleosides inhibit S-adenosylhomocysteine hydrolase, they could potentially decrease intracellular methionine synthesis. To test this hypothesis, we measured methionine synthesis by the use of [14C]formate as a radioactive precursor in cultured human T and B lymphoblasts treated with varying concentrations of purine nucleosides; 2'-deoxycoformycin and 8-aminoguanosine were added to inhibit adenosine deaminase and purine nucleoside phosphorylase, respectively. In the T lymphoblasts methionine synthesis was inhibited approximately 50% by 10 microM of 2'-deoxyadenosine, adenine arabinoside, or 2'-deoxyguanosine. By contrast, in the B lymphoblasts methionine synthesis was considerably less affected by these nucleosides, with 50% inhibition occurring at 100 microM of 2'-deoxyadenosine and adenine arabinoside; 100 microM of 2'-deoxyguanosine yielded less than 10% inhibition. Adenosine and guanosine were considerably less potent inhibitors of methionine synthesis in both the T and B lymphoblasts. An adenosine deaminase-deficient and a purine nucleoside phosphorylase-deficient cell line, both of B cell origin, exhibited sensitivities to the nucleosides similar to those of the normal B cell lines. In both the T and B cell lines homocysteine reversed the methionine synthesis inhibition induced by the adenine nucleosides and guanosine and largely reversed that induced by 2'-deoxyguanosine. Methionine synthesis from homocysteine generates free tetrahydrofolate from 5-methyltetrahydrofolate, the main intracellular storage form of folate. We conclude that purine nucleoside toxicity may be partly mediated through (a) decreased intracellular methionine synthesis, and (b) altered folate metabolism.
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PMID:Decreased methionine synthesis in purine nucleoside-treated T and B lymphoblasts and reversal by homocysteine. 633 27

Peripheral blood or bone marrow of 24 patients with chronic myeloid leukemia (CML) were characterized for their surface membrane marker profiles using flow cytometry and fluorescence microscopy. Purine metabolism enzyme activities were compared with membrane immunophenotype and cytochemical stains. CML subtypes were correlated with the expression of surface membrane antigens detected by the monoclonal antibodies. On the basis of immunophenotyping we found the following characteristic marker profiles: In stable phase of CML (CML-SP)-CD15, CD11b, CDw65, CD13, in accelerated phase of CML (CML-AP)-CD15, CDw65, CD11b, CD13 and CD33, in myeloid blastic phase of CML(CML-BP-M)-CD13, CD33, HLA-DR, CD11b, CD15, CDw65, in myeloid and lymphoid (mixed) blastic phase of CML (CML-BP-M+L)-CD13, CD33, CD34, HLA-DR, CD11b, CD10 and in chronic myelomonocytic leukemia (CMML)-CD14, CDw65, CD11b, CD33 and HLA-DR. Analysis of purine metabolism enzyme activities showed that there was a correlation between the values of adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) and various types of CML. ADA levels in CML-SP, CML-AP and CMML were comparable with those in normal cells. In CML-BP-M, which represents proliferation of less mature myeloid cells (similar to less mature AML subtypes), ADA activity increased and PNP activity decreased. ADA activity was significantly different between control group and CML-BP-M (p < 0.01), between CML-SP and CML-BP-M (p < 0.05). The values of PNP activity were the highest in stable phase of CML (125 pkat. 10(-6) cells) and the lowest (23 pkat.10(-6) cells) in CML-BP-M+L. PNP activity in the other groups corresponded to control values. High ADA/PNP ratio was found in CML-BP-M and CML-BP-M+L (0.7 and 2.0, respectively) in comparison to CML-SP (0.2). It follows from our results that ADA/PNP ratio enables to discriminate between stable and blast phases of CML (p < 0.01). The level of the cytochemical enzymes (CHAE, MPO, SBB, ANAE and 5' NT) varied and reflected the degree of cell differentiation and maturation. CHAE and MPO were characteristic enzymes for CML, ANBE for CMML and 5' NT for CML-BP-lymphoid.
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PMID:Chronic myeloid leukemia: correlation between purine metabolism enzyme activities and membrane immunophenotype. 761 76

A total of 34 AML patients with heterogenous age distribution (from 2 years up to 82 years) were observed. Purine metabolism enzyme activities were compared and correlated with membrane immunophenotype. Analysis of bone marrow and peripheral blood samples based on FAB criteria and immunologic phenotyping of acute myeloid leukemia (AML) provided useful--either confirmatory or contradictory-information on the distribution of M1-M6 patients demonstrating a predominance of M1+M2 and M4 groups (44% and 32.4%, respectively). In contrast, it was demonstrated that less frequent subtypes were M3 and M6 (5.9% and 2.9%, respectively). AML subtypes were correlated with expression of surface antigens detected by the following monoclonal antibodies: CD13, CD33, CDw65, CD11b, CD15, CD14, HLA-DR and CD34. On the basis of immunophenotyping we found the following characteristic markers: M1, M2-CD34, HLA-DR, CD13, CD33, CDw65; M3-CD13, CD33, HLA-DR (negative); M4, M5-CDw65, CD14, CD13, CD33 and HLA-DR. CD14 was confirmed to be a typical marker for discriminating myeloid from monocytoid FAB AML subtypes. Analysis of purine metabolism enzyme activities showed that there is a correlation between the values of adenosine deaminase and purine nucleoside phosphorylase and various immunotypes of AML. High ADA/PNP ratio (> 1.0) was found in M1, M2, M3 subtypes. It was due to the increased level of ADA activity (> 100 pkat.10(-6) cells), though these activities overlapped to a certain extent. It was shown that PNP activity simultaneously decreased. With maturation of cells within AML lineage ADA activity decreased and PNP activity increased. This corresponded with ADA/PNP ratio that was < 1.0 in cells of more mature AML subtypes. We found that the enzymatic values were characteristic mainly in cells of M5 (monocytic) AML subtype and were characterized by decreased values of ADA activity with a simultaneous increase in PNP activity. It follows from our results that ADA/PNP ratio enables to discriminate between myeloid and monocytoid subtypes of AML.
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PMID:Acute myeloid leukemia: correlation between purine metabolism enzyme activities and membrane immunophenotype. 828 64

Peripheral blood, bone marrow and/or lymph nodes of 77 patients with T- and B-ALLs/lymphomas were characterized for their surface membrane marker profiles using flow cytometry and fluorescence microscopy. Purine metabolism enzyme activities were compared with membrane immunophenotypes. T and B-ALLs/lymphomas subtypes were defined by the expression of surface membrane antigens detected by the monoclonal antibodies. Based on immunophenotyping we found the following characteristic marker profiles: in T-ALL-CD7, CD2, CD1, CD5, CD3, CD4, CD8, CD38, CD71; in T-NHL-CD7,CD2,CD3,CD4,CD5,CD6; in pre-B ALL-CD10, CD19, CD24, HLA-DR, CD34, in B-ALL-CD19, CD20, CD24, HLA-DR, SmIg with kappa or lamda light chains; in B-ALL-weak SmIg, kappa or lambda, CD19, CD20, CD24, CD5, HLA-DR; in B-NHL-CD19, CD20, CD22, CD24, CD5, more intensive SmIg, kappa or lambda. The cells of leukemic cases tended to have more immature phenotypes than those of lymphoma cases. Analysis of purine metabolism enzyme activities showed that there was a correlation between the values of adenosine deaminase (ADA) and purine nucleoside (PNP) and various types of T- and B-ALLs/lymphomas. ADA levels in B-NHL and B-CLL were lower than those in normal cells, while ADA level in T-ALL, T-NHL, pre-B-ALL and B-ALL was higher (the average 185,92,73,63 pkat. 10(-6)cells, respectively). ADA activity was significantly different between lymphocytes of control group and T-ALL(p<0.01), between T-ALL and T-NHL(p<0.05), between T-NHL and B-NHL(p<0.05) and between T-ALL and B-NHL(p<0.05). PNP activities were lower to those in normal cells. ADA/PNP ratio increased mostly in T-ALL, less in T-NHL, pre-B-ALL and B-ALL (10.8 and 5.3 and 2.2, and 2.0 respectively). ADA/PNP ratio was significantly different between T-ALL and pre-B-ALL(p<0.05) and between T-ALL and B-NHL(p<0.05).
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PMID:A comparison of some leucocyte differentiation markers and the adenosine deaminase and purine nucleoside phosphorylase values in B and T cell leukemias and lymphomas. 859 72


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