EC:3.5.4.4 - FACTA Search

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 mechanism of the depletion of ATP, recorded in the erythrocytes of adenosine deaminase-deficient children and of leukemia patients treated with deoxycoformycin, was investigated in normal human erythrocytes treated with this inhibitor of adenosine deaminase. Deoxyadenosine, which accumulates in both clinical conditions, provoked a dose-dependent accumulation of dATP, depletion of ATP, and increases in the production of inosine plus hypoxanthine. Concomitantly, there was an increase of AMP and IMP, but not of adenosine, indicating that catabolism proceeded by way of AMP deaminase. A series of nucleoside analogues (9-beta-D-arabinofuranosyladenine, N6-methyladenosine, 6-methylmercaptopurine ribonucleoside, tubercidin, ribavirin, and N-1-ribosyl-5-aminoimidazole-4-carboxamide riboside) also stimulated adenine nucleotide catabolism and increased AMP and IMP to various extents. The effects of deoxyadenosine and of the nucleoside analogues were prevented by 5'-iodotubercidin, an inhibitor of adenosine kinase. Strikingly, they were reversed if the inhibitor was added after the accumulation of nucleotide analogues and initiation of adenine nucleotide catabolism. Further analyses revealed linear relationships between the rate of phosphorylation of deoxyadenosine and nucleoside analogues and the increase in AMP and between the elevation of the latter above a threshold concentration of 10 microM and the rate of adenine nucleotide catabolism. Kinetic studies with purified erythrocytic AMP deaminase, at physiological concentrations of its effectors, showed that the enzyme is nearly inactive up to 10 microM AMP and increases in activity above this threshold. We conclude that the main mechanism whereby deoxyadenosine and nucleoside analogues stimulate catabolism of adenine nucleotides by way of AMP deaminase in erythrocytes is elevation of AMP, secondary to the phosphorylation of the nucleosides.
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PMID:Mechanism of adenosine triphosphate catabolism induced by deoxyadenosine and by nucleoside analogues in adenosine deaminase-inhibited human erythrocytes. 278 93

Profound lymphopenia is characteristic of immunodeficient children who lack adenosine deaminase (ADA). When ADA is inactive, deoxyadenosine (dAdo) is phosphorylated by immature T lymphoblasts and inhibits cell division. However, dAdo also causes the slow accumulation of DNA strand breaks in nondividing, mature human peripheral blood lymphocytes. To explore the basis for this phenomenon, we have assessed the effects of dAdo and other deoxynucleosides on the repair of gamma-radiation induced DNA strand breaks in resting normal lymphocyte cultures. As measured by a sensitive DNA unwinding assay, most DNA strand breaks were rejoined within 2 hr after exposure of lymphocytes to 500 rad. In medium supplemented with deoxycoformycin, a tight binding ADA inhibitor, dAdo retarded DNA rejoining in a dose and time dependent manner. The inhibition required dAdo phosphorylation. Over an 8-hr period, 10 microM dAdo gradually rendered peripheral blood lymphocytes incompetent for DNA repair. Among several other compounds tested, 2-chlorodeoxyadenosine, an ADA resistant dAdo congener with anti-leukemic and immunosuppressive activity, was the most powerful inhibitor of DNA repair, exerting significant activity at concentrations as low as 100 nM. Both dAdo and 2-chlorodeoxyadenosine blocked unscheduled DNA synthesis in irradiated resting lymphocytes, as measured by [3H]thymidine uptake. On the basis of this and other data, we suggest that quiescent peripheral blood lymphocytes break and rejoin DNA at a slow and balanced rate. The accumulation of dATP progressively retards the DNA repair process and thereby fosters the time-dependent accretion of DNA strand breaks. By inhibiting DNA repair, dAdo, 2-chlorodeoxyadenosine and related compounds may substantially potentiate the toxicity of DNA damaging agents to normal and malignant lymphocytes.
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PMID:Inhibition of DNA repair by deoxyadenosine in resting human lymphocytes. 287 Jan 21

Severe combined immunodeficiency disease (SCID) in patients with adenosine deaminase (ADA) deficiency is thought to result from increased levels of purine metabolites. We attempted to immunosuppress a patient with ADA deficiency and SCID using a continuous infusion of deoxyadenosine to obtain engraftment of a T cell-depleted haplocompatible parental bone marrow graft. Before administering the drug in vivo, we investigated hematopoietic colony formation in two children with ADA deficiency (including the potential recipient), the obligate heterozygote donor (father), and normal controls using deoxyadenosine and erythro-9-(2-hydroxy-3-nanyl)adenosine (EHNA), and inhibitor of ADA. Deoxyadenosine alone in concentrations as high as 100 microM had no significant affect on erythroid (BFU-E) or myeloid (CFU-c) colony formation. However, in the presence of EHNA there was a significant reduction in BFU-E and CFU-c growth in all subjects and controls. Increasing doses of deoxyadenosine were given to one patient with ADA deficiency and SCID as a continuous 24-hr intravenous infusion. We found that there was a linear relationship between the dose administered and the plasma level; however, doses greater than 100 mg/day were required to increase erythrocyte dATP levels. We were able to raise intracellular dATP levels to more than three times baseline with doses of deoxyadenosine of 200 mg/day. However, there were no significant effects on the absolute lymphocyte counts or the lymphocyte responses to mitogen or alloantigen, and the haploidentical marrow failed to engraft. Our results suggest that the bone marrow of ADA-deficient patients is normal with respect to standard colony formation, that inhibitors of ADA do not adequately model the deficient state, and that the immunodeficiency in ADA deficiency is not proportionately related to either the deoxyadenosine or dATP levels, both of which were significantly elevated at the time of transplantation.
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PMID:Rejection of bone marrow transplant and resistance of alloantigen reactive cells to in vivo deoxyadenosine in adenosine deaminase deficiency. 297 90

Hydroxyurea-resistant S49 T-lymphoma cells have increased ribonucleotide reductase activity and deoxyribonucleoside triphosphate pools when compared with wild-type cultures. If ribonucleotide reductase inhibition is the mechanism by which deoxyadenosine is cytotoxic, then hydroxyurea (HU)-resistant S49 cells might be more resistant to deoxyadenosine toxicity when adenosine deaminase is inhibited than wild-type cells. Five S49 cell lines resistant to varying concentrations of HU were compared with wild-type cells by measuring CDP reductase activity, deoxyribonucleoside triphosphate pools, and deoxyadenosine toxicity. All five cell lines resistant to increasing concentrations of HU exhibited a twofold increase in resistance to deoxyadenosine toxicity when compared to wild type, and the resistance was proportional to the twofold increased pools of dNTPs in these cell lines but was less than the six- to eight fold increase in ribonucleotide reductase activity. In both wild-type and mutant cell lines, deoxyadenosine toxicity was accompanied by the accumulation of deoxyadenosine triphosphate and reduction of the other dNTPs; however, only dGTP greatly diminished. Exogenous addition of deoxycytidine decreased the dATP accumulation by about 20%, but also resulted in increases in the dCTP, dTTP, and dGTP pools. The S49 cells arrested in G1 phase when exposed to dAdo, although hydroxyurea-resistant cells required higher dAdo concentrations to elicit G1-phase arrest than wild-type cells. Deoxycytidine prevented dAdo-induced G1 arrest in all cell types. In summary, these data support the hypothesis that deoxyadenosine-induced dATP accumulation results in inhibition of ribonucleotide reductase and that this may be the mechanism for both cell cycle arrest and cytotoxicity in S49 T-lymphoma cells.
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PMID:Deoxyadenosine toxicity and cell cycle arrest in hydroxyurea-resistant S49 T-lymphoma cells. 305 32

Some biochemical mechanisms underlying the impairments of cellular immunity were studied in C3Ha mice in the course of growth of transplantable and induced (ortoaminoazotoluol) solid hepatomas. During intensive hepatoma growth, the adenosine deaminase activity in host thymocytes was shown to be drastically (6 times) reduced, resulting in the elevation of dATP and dGTP concentrations (6- and 7-fold, respectively), the potential inhibitors of ribonucleoside diphosphate reductase. Consequently, the rate of DNA synthesis was reduced as can be evidenced by the decrease of (a) thymidine kinase activity, (b) 14C-thymidine incorporation into DNA, and (c) dTTP and dCTP pools. By the terminal period of hepatoma growth (both transplantable and induced one), the serum corticosterone content increased 3- and 8-fold, respectively. At the same time, specific binding of [3H]triamsinolone acetonide by thymocytes was augmented and the activity of terminal deoxynucleotidyl transferase increased the latter alterations, which can be regarded as a reflection (including other parameters mentioned) of the arrest of T-lymphocyte differentiation at the level of immature cortex thymocytes.
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PMID:[Changes in the lymphoid cells of DNA and purine nucleotide synthesis and sensitivity to glucocorticoids associated with impairment of differentiation and immune function during tumor growth in mice. Thymocytes]. 308 74

Biochemical impairments in spleen immunocompetent cells (T- and B-lymphocytes) were revealed in host (C3HA mice) of transplantable and ortoaminoazotoluol-induced hepatomas in the course of their growth. As soon as hepatoma emerged (chemical carcinogenesis), the activity of adenosine deaminase and purine nucleoside phosphorylase in T- and B-lymphocytes were found to be reduced 2-6 and 7-10-fold, respectively in parallel with the impairment of their immune system. These alterations were accompanied by the increase in concentrations of dGTP in T-lymphocytes (5.4-fold) and of dATP in B-lymphocytes (4-fold) as well as with the inhibition of DNA synthesis, predominantly in T-lymphocytes. In both T- and B-lymphocytes, the dCTP pool was decreased. In the spleen, T- and B-lymphocytes of mice carrying transplantable 22 hepatoma 22 by the moment of its maximal growth (5th day), the DNA synthesis was inhibited as revealed by the reduction of (a) thymidine kinase activity, (b) rate of the labeled thymidine incorporation into DNA, and (c) intracellular dTTP and dCTP concentrations. In latter periods (from 8th day up to the moment of death), drastic stimulation of DNA synthesis in spleen T- and B-lymphocytes was observed irrespective of the impairments in the immune function and the decrease of the adenosine deaminase activity. In the course of growth of both transplantable and induced solid hepatomas in host spleen T- lymphocytes, the activity of the CTP-dependent thymidine kinase isoenzyme increased, coinciding in time with the activation of antigen-specific T-suppressors in the same organ.
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PMID:[Changes in DNA and purine nucleotide synthesis in lymphoid cells and sensitivity to glucocorticoids associated with the impairment of differentiation and immune function in mice during tumor growth. Spleen T- and B-lymphocytes]. 308 34

Two children with adenosine deaminase (ADA) deficiency and combined immunodeficiency disease were given parenteral deoxycytidine in order to reverse the severe T-cell immunodeficiency associated with this disease. One patient received a total of three courses of parenteral deoxycytidine. On two occasions deoxycytidine (50 mg/kg/day) was infused intravenously continuously for 2 weeks. During one of the infusions she received the deoxycytidine deaminase inhibitor tetrahydrouridine (THU). Steady-state levels of plasma deoxycytidine increased 4-fold with THU. RBC dCTP/dATP increased more than 10-fold after 48 hr of deoxycytidine infusion. Immunologic studies following the intravenous infusion of deoxycytidine showed transient improvement in T-cell immunity. The third course of deoxycytidine (50 mg/kg/day) was administered subcutaneously during a 10-hr night-time infusion. After 6 and 12 weeks of nightly subcutaneous infusions, there was minimal improvement in the in vitro immunologic studies and no clinical improvement. The second patient received a single 2-week course of continuous intravenous deoxycytidine (50 mg/kg/day) following which there was no significant change in T-cell immunity. This study defines some of the pharmacologic parameters of human deoxycytidine metabolism and suggests that some patients with ADA deficiency may respond to deoxycytidine therapy with improvement in T-cell-mediated immunity, although the changes are small and the effect on clinical status appears to be limited.
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PMID:Deoxycytidine therapy in two patients with adenosine deaminase deficiency and severe immunodeficiency disease. 316 76

The simultaneous administration of 3'-deoxyadenosine N1-oxide (3'-dANO) and the adenosine deaminase inhibitors erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA) or 2'-deoxycoformycin (2'-dCF) to mice bearing Ehrlich ascites tumor cells resistant to 3'-dANO resulted in 80%-90% inhibition of tumor growth in vivo. 3'-dANO and 2'-dCF increased the survival time of tumor-bearing mice by a factor of 2. In vitro studies showed that the 3'-dANO resistant Ehrlich cells initiate the metabolism of 3'-dANO by a reduction to 3'-deoxyadenosine, which is converted primarily to 3'-deoxyinosine by adenosine deaminase and, to a small extent, phosphorylated to the cell toxic agent 3'-dATP. By the addition of EHNA or 2'-dCF it was possible to block the formation of 3'-deoxyinosine, resulting in a profound stimulation in the accumulation of 3'-dATP. The development of resistance to 3'-dANO was studied in cell cultures and found to be accompanied by changes in the enzyme activities of the reductase, the adenosine kinase, and the adenosine deaminase.
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PMID:Synergistic effect of 3'-deoxyadenosine N1-oxide and adenosine deaminase inhibitors on growth of Ehrlich ascites tumor cells in vivo. 325 21

The effects of irradiation were evaluated in L5178Y lymphoblasts treated with the adenosine deaminase inhibitor, 2'-deoxycoformycin, and deoxyadenosine. A synergistic antitumor effect was observed in resting cells between irradiation and 2'-deoxycoformycin/deoxyadenosine, with the dose required to reduce the surviving cell fraction to 0.1 being 25% lower than predicted for an additive effect. Synergy was enhanced with increasing deoxyadenosine concentration or with increasing radiation dose. When cells were treated with 2'-deoxycoformycin/deoxyadenosine for 1 h prior to irradiation, synergy was increased by prolonging postirradiation drug treatment. With 4-h postirradiation exposure to drug, varying the preirradiation incubation time did not affect synergy. In contrast, only a small enhancement of antitumor activity was observed in irradiated proliferating cells treated with 2'-deoxycoformycin/deoxyadenosine. Incubation of resting cells with 2'-deoxycoformycin/deoxyadenosine resulted in inhibition of the rate and extent of repair of radiation-induced DNA single strand breaks and an increase in dATP, but had no effect on NAD or ATP. With removal of drug, the dATP level fell rapidly and DNA repair resumed. Repair of DNA single strand breaks was more rapid in proliferating cells than in resting cells and was minimally affected by 2'-deoxycoformycin/deoxyadenosine, although the accumulation of dATP in these cells was 2-fold greater than in resting cells. The repair of DNA single strand breaks in chronic lymphocytic leukemia cells was as rapid as for proliferating L5178Y cells, but repair was significantly inhibited by 2'-deoxycoformycin/deoxyadenosine. These results suggest that 2'-deoxycoformycin/deoxyadenosine can function as a radiosensitizer, and this effect is associated with the cellular accumulation of dATP and inhibition of repair of DNA single strand breaks.
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PMID:Enhanced cytotoxicity and inhibition of DNA damage repair in irradiated murine L5178Y lymphoblasts and human chronic lymphocytic leukemia cells treated with 2'-deoxycoformycin and deoxyadenosine in vitro. 326 Jan 29

2-Deoxycoformycin (DCF) was added to an intensive Pediatric Oncology Group protocol (#8303) for children with T-cell acute lymphoblastic leukemia or T-cell lymphoblastic lymphoma in first relapse. Twenty-seven patients received one or more courses of DCF at 15 mg/m2/day as a 3-day continuous infusion immediately after achieving a second remission with a four-drug reinduction regimen. Renal and neuromuscular toxicities were frequent and occasionally severe despite the provision of a source of adenosine deaminase by means of a packed red cell transfusion 1 day following the infusion of DCF. Hepatic toxicity, manifested by transaminase elevations, accompanied 62% of the courses. The median duration of the second complete remission was 4 months (range 2-16+ months), with only two of the 27 patients still in remission at 13+ and 16+ months. Plasma concentrations of deoxyadenosine (dAdo) and the ratio of red cell deoxyadenosine triphosphate to adenosine triphosphate (dATP:ATP) were measured prior to the DCF infusion and on day 4. A dATP:ATP ratio of 1.0 or greater was seen in two patients with acute renal failure. There was no apparent correlation between toxicity or response and the plasma dAdo concentrations. DCF administered according to this dose and schedule was excessively toxic and did not appreciably prolong the duration of the second complete remission in children with T-cell lymphoblastic malignancies.
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PMID:Deoxycoformycin treatment for childhood T-cell acute lymphoblastic leukemia early in second remission: a Pediatric Oncology Group Study. 326 63

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