Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.4.17 (adenosine deaminase)
 5,206 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Purine nucleoside phosphorylase (PNP) deficiency is associated with a severe defect in thymus-derived (T)-lymphocyte function combined with normal bone marrow-derived (B)-lymphocyte function. To investigate the role of this enzyme deficiency in the resulting immune dysfunction, we measured the levels of ribonucleoside and deoxyribonucleoside triphosphates in erythrocytes from two unrelated PNP-deficient, T-lymphocyte-deficient patients. Both PNP-deficient patients have abnormally high levels of deoxyguanosine triphosphate (deoxy-GTP) in their erythrocytes (5 and 8 nmol/ml packed erythrocytes). In contrast, normal controls and adenosine deaminase-deficient, immunodeficient patients do not have detectable amounts of deoxyGTP (<0.5 nmol/ml packed erythrocytes). We propose that deoxyguanosine, a substrate of PNP, is the potentially lymphotoxic metabolite in PNP deficiency. The mechanism of toxicity involves phosphorylation of deoxyguanosine to deoxyGTP, which acts as a potent inhibitor of mammalian ribonucleotide reductase.
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PMID:Deoxyguanosine triphosphate as a possible toxic metabolite in the immunodeficiency associated with purine nucleoside phosphorylase deficiency. 9 38

Deoxyadenosine and deoxyguanosine are toxic to human lymphoid cells in culture and have been implicated in the pathogenesis of the immunodeficiency states associated with adenosine deaminase and purine nucleoside phosphorylase deficiency, respectively. We have studied the relative incorporation of several labeled nucleosides into DNA and into nucleotide pools to further elucidate the mechanism of deoxyribonucleoside toxicity. In the presence of an inhibitor of adenosine deaminase [erythro-9-(2-hydroxy-3-nonyl)adenine [EHNA], 5 muM], deoxyadenosine (1-50 muM) progressively decreased the incorporation of thymidine, uridine, and deoxyuridine into DNA, but did not affect uridine incorporation into RNA. This decrease in DNA synthesis was associated with increasing dATP and decreasing dCTP pools. Likewise, incubation of cells with deoxyguanosine caused an elevation of dGTP, depletion of dCTP, and inhibition of DNA synthesis. To test the hypothesis that dATP and dGTP accumulation inhibit DNA synthesis by inhibiting the enzyme ribonucleotide reductase, simultaneous rates of incorporation of [(3)H]uridine and [(14)C]thymidine into DNA were measured in the presence of deoxyadenosine plus EHNA or deoxyguanosine, and in the presence of hydroxyurea, a known inhibitor of ribonucleotide reductase. Hydroxyurea (100 muM) and deoxyguanosine (10 muM) decreased the incorporation of [(3)H]uridine but not of [(14)C]thymidine into DNA; both compounds also substantially increased [(3)H]cytidine incorporation into the ribonucleotide pool while reducing incorporation into the deoxyribonucleotide pool. In contrast, deoxyadenosine plus EHNA did not show this differential inhibition of [(3)H]uridine incorporation into DNA, and the alteration in [(3)H]cytidine incorporation into nucleotide pools was less impressive. These data show an association between accumulation of dATP or dGTP and a primary inhibition of DNA synthesis, and they provide support for ribonucleotide reductase inhibition as the mechanism responsible for deoxyguanosine toxicity. Deoxyadenosine toxicity, however, appears to result from another, or perhaps a combination of, molecular event(s).
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PMID:Purinogenic immunodeficiency diseases. Differential effects of deoxyadenosine and deoxyguanosine on DNA synthesis in human T lymphoblasts. 11 1

The inherited deficiency of adenosine deaminase (adenosine aminohydrolase; EC 3.5.4.4) activity in humans is associated with an immunodeficiency. Some of the immunodeficient and enzyme-deficient patients respond immunologically to periodic infusions of irradiated erythrocytes containing adenosine deaminase. It has been previously reported that erythrocytes and lymphocytes from immunodeficient ane enzyme-deficient children contained increased concentrations of ATP, and in the one child studied after erythrocyte infusion therapy, the intracellular level of ATP diminished. Using high-pressure liquid chromatography that resolves ATP and 2'-dATP, we have observed greater than 50-fold elevations of dATP in the erythrocytes of immunodeficient, adenosine deaminase-deficient patients but not in the erythrocytes of an immunocompetent adenosine deaminase-deficient patient. The erythrocyte dATP in two unrelated adenosine deaminase-deficient, immunodeficient patients disappeared after infusion of normal erythrocytes. We propose that deoxyadenosine, a substrate of adenosine deaminase, is the potentially toxic substrate in adenosine deaminase deficiency, and that the mediator of the toxic effect is dATP, a recognized potent inhibitor of ribonucleotide reductase.
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PMID:Deoxyadenosine triphosphate as a potentially toxic metabolite in adenosine deaminase deficiency. 27 65

Micromolar deoxyadenosine inhibits leucine uptake during the 1st day of proliferation in mitogen-stimulated lymphocytes if adenosine deaminase is inhibited. This inhibition occurs before DNA synthesis begins, suggesting that deoxyadenosine can affect mitogenesis by mechanisms that do not involve ribonucleotide reductase inhibition. If deoxyadenosine addition to mitogen-stimulated lymphocytes is delayed to the 2nd or 3rd day post-stimulation, inhibition of proliferation is markedly reduced. Although the time dependence of deoxyadenosine toxicity resembles that of adenosine, these compounds appear to inhibit early protein synthesis by different mechanisms: 1) deoxycoformycin markedly potentiates deoxyadenosine but not adenosine; 2) deoxycytidine and thymidine reverse deoxyadenosine toxicity but do not alter adenosine toxicity.
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PMID:The effect of nucleosides and deoxycoformycin on adenosine and deoxyadenosine inhibition of human lymphocyte activation. 31 74

Fludara I.V. (fludarabine phosphate) (9-beta-D-arabinosyl-2-fluoroadenine, F-ara-A) is an adenine nucleoside analogue resistant to adenosine deaminase that shows promising therapeutic activity in the clinical treatment of lymphocytic hematologic malignancies. F-ara-A is transported into cells, where it is converted to its 5'-triphosphate (F-ara-ATP), the principal active metabolite. Deoxycytidine kinase is the enzyme responsible for the initial step of this activation metabolism. The differential transport and phosphorylation of F-ara-A and accumulation of F-ara-ATP by normal and cancer cells may constitute the metabolic basis of its positive therapeutic index. The major action of F-ara-A is the inhibition of DNA synthesis. F-ara-ATP competes with deoxyadenosine triphosphate for incorporation into the A sites of the elongating DNA strand by DNA polymerases and terminates DNA synthesis at the incorporation sites. That action is potentiated by the decrease of cellular dATP that results from inhibition of ribonucleotide reductase by F-ara-ATP. In vitro experiments demonstrated that DNA polymerase delta is able to excise the incorporated F-ara-AMP residues from DNA with its 3' to 5' exonuclease activity. The terminal incorporation of F-ara-AMP into DNA results in deletion of genetic material. That mechanism may be responsible for the observed mutagenicity of Fludara I.V., and ultimately its cytotoxic action.
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PMID:Metabolism and action of fludarabine phosphate. 169 80

Hydroxyurea, an inhibitor of ribonucleotide reductase, blocks replication of vaccinia virus. However, when medium containing hydroxyurea and dialyzed serum was supplemented with deoxyadenosine, the block to viral reproduction was circumvented, provided that an inhibitor of adenosine deaminase was also present. Deoxyguanosine, deoxycytidine, and deoxythymidine were ineffective alone and did not augment the deoxyadenosine effect. In fact, increasing concentrations of deoxyguanosine and deoxythymidine, but not deoxycytidine, eliminated the deoxyadenosine rescue, an effect that was reversed by the addition of low concentrations of deoxycytidine. These results suggested that the inhibition of viral replication by hydroxyurea was primarily due to a deficiency of dATP. Deoxyribonucleoside triphosphate pools in vaccinia virus-infected cells were measured at the height of viral DNA synthesis after a synchronous infection. With 0.5 mM hydroxyurea, the dATP pool was greater than 90% depleted, the dCTP and dGTP pools were 40 to 50% reduced, and the dTTP pool was increased. Assay of ribonucleotide reductase activity in intact virus-infected cells suggested that hydroxyurea may differentially affect reduction of the various substrates of the enzyme.
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PMID:Deoxyadenosine reverses hydroxyurea inhibition of vaccinia virus growth. 201 60

Inherited deficiency of the purine salvage enzyme adenosine deaminase (ADA) is responsible for approximately half the cases of autosomal recessive Severe Combined Immunodeficiency (SCID). Deficiency of ADA can also result in a much later-onset, milder immunodeficiency, while lesser degrees of enzyme deficiency can result in either late-onset immunodeficiency or grossly normal immunologic function. The full clinical spectrum of ADA deficiency is currently being more fully defined. Florid pathology is primarily restricted to the immune system and appears to result from accumulation of substrates (adenosine and deoxyadenosine) and metabolites (deoxy ATP). Studies indicate that these metabolites may preferentially accumulate in lymphoid cells and can interfere with lymphoid proliferation and function. There is evidence for several mechanisms, including induction of chromosome breaks, inhibition of ribonucleotide reductase needed for normal DNA synthesis, and inactivation of SAH hydrolase needed for normal methylation reactions. The enzyme is a 40 Kd monomer that is ubiquitous, and diagnosis can be made with many cell types including erythrocytes, lymphocytes and fibroblasts. Prenatal diagnosis has been made with chorionic villous samples, amniotic cells and fetal blood. The gene for ADA resides on the long arm of human chromosome 20, and both the expressed and structural gene have been isolated and characterized. Most patients with ADA SCID have single base pair mutations resulting in amino acid substitutions, although a splicing mutation and a deletion have been described. The treatment of choice is currently bone-marrow transplantation from a histocompatible related donor, if available. Haploidentical transplants have also been successful but appear to have higher failure rates in ADA deficients than in other types of SCID. Enzyme replacement, now using an enzyme modified to increase the half-life and decrease immunogenicity, has been reported as successful but longer-term efficacy remains to be evaluated. The disorder, despite its rarity, is for several reasons considered a prime candidate for gene therapy. Recently success has been obtained in introducing the gene into lymphoid stem cells and achieving long-term expression.
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PMID:Adenosine deaminase deficiency. 207 32

The effects of ribonucleotide reductase inhibitors on the growth of the human colon carcinoma cell line HT-29 were examined. Inhibitors were chosen for these studies that were specifically directed at each of the subunits of ribonucleotide reductase. The concentrations of drugs required to inhibit the growth of HT-29 cells by 50% (IC50) for hydroxyurea, 2,3-dihydro-lH-pyrazole-[2,3a]imidazole (IMPY), and 4-methyl-5-amino-l-formyl-isoquinoline thiosemicarbazone (MAIQ) were 206, 996, and 3.2 microM, respectively. Although the IC50 for deoxyadenosine alone was greater than 2,000 microM, in the presence of 5 microM erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA), which protects deoxyadenosine from deamination by adenosine deaminase, it was reduced to 112 microM. The IC50 for deoxyguanosine was 1,060 microM. The addition of 8-aminoguanosine to protect deoxyguanosine from phosphorolysis by purine nucleoside phosphorylase did not increase the toxicity of deoxyguanosine in HT-29 cells. The combination of MAIQ or IMPY and deoxyadenosine/EHNA gave strong synergistic inhibition of HT-29 cell growth. The results of these studies indicate that ribonucleotide reductase inhibitors effectively block the growth of human colon carcinoma HT-29 cells and that combinations of inhibitors directed at the individual subunits of reductase result in synergistic inhibition of HT-29 cell growth in culture.
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PMID:Effect of ribonucleotide reductase inhibitors on the growth of human colon carcinoma HT-29 cells in culture. 220 72

Deoxyadenosine (dAdo) has been recognized as the toxic metabolite in the immunodeficiency disease associated with adenosine deaminase (ADA) deficiency. Under ADA deficient conditions, dAdo accumulates intracellularly as deoxyadenosine triphosphate (dATP) which by interference with ribonucleotide reductase, prevents DNA synthesis. Recently, we and others have demonstrated that in cells rendered ADA deficient by treatment with deoxycoformycin, dAdo affects T-cell activation events which precede DNA synthesis, such as interleukin 2 receptor (IL-2R) expression and IL-2 production. Here we have analyzed interference of dAdo with the early events of T-cell activation. It is shown that dAdo affects the mitogen induced phosphatidyl inositol turnover. Furthermore dAdo interferes with increase of intracellular calcium. Deoxycytidine, although capable of preventing intracellular accumulation of dATP, cannot reverse the functional consequences of dAdo treatment. The ability of a cell to increase its cytoplasmic free Ca2+, as induced by ionomycin, is not affected by dAdo. The exact target for this novel effect of dAdo is at the present unknown.
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PMID:Interference of deoxyadenosine with transmembrane signaling events in human T lymphocytes. 230 14

Administration of 2,3-dihydro-1H-pyrazole[2,3a]imidazole (IMPY, 150 mg/kg) followed 8 hr later by injection of deoxyadenosine/erythro-9-(2-hydroxyl-3-nonyl)adenine (dAdo/EHNA, 175 mg/17.5 mg/kg) on days 2, 3, 6, and 7 increased the mean survival time of L1210 tumor bearing mice (210%). The sequential treatment was more efficacious than the simultaneous administration of these drugs. Administration of IMPY or dAdo/EHNA, alone, at the same doses as in the combination, did not prolong the life-span of tumor bearing mice. To determine the basis for the increased survival due to the sequential treatment with IMPY and dAdo/EHNA, cell cycle analysis and deoxyribonucleoside triphosphate concentrations were measured. Cytotoxicity of IMPY and dAdo/EHNA is known to be achieved through the inhibition of ribonucleotide reductase. IMPY is a specific inhibitor of the nonheme-iron subunit of ribonucleotide reductase, whereas deoxyadenosine in the presence of the adenosine deaminase inhibition, EHNA, is converted to deoxyadenosine 5'-triphosphate (dATP), which is a specific inhibitor of the effector-binding-subunit of ribonucleotide reductase. Our studies showed that L1210 cells accumulated in early S-phase, whereas intracellular dATP and deoxyguanosine triphosphate (dGTP) pools were depleted 8 hr after IMPY administration. dAdo/EHNA administration 8 hr after IMPY injection caused an increase in the intracellular concentration of dATP while maintaining the depletion of the dGTP pool and prolonged the S-phase as compared to the administration of IMPY alone.
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PMID:Antineoplastic effect of the combination of 2,3-dihydro-1H-pyrazole[2,3a]imidazole plus deoxyadenosine/erythro-9-(2-hydroxyl-3-nonyl)adenine in mice with L1210 leukemia cells. 236 48


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