EC:3.5.4.4 - FACTA Search

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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)

Inherited adenosine deaminase (ADA) deficiency is associated with a lymphospecific cytotoxicity affecting both dividing and non-dividing cells. The metabolic basis for this was investigated using different cell types and the potentially toxic metabolite 2'-deoxyadenosine (dAR) in short-term experiments under physiological conditions simulating ADA deficiency (1 mM Pi 8.7 microM dAR). In the uncultured cells, [8-14C] dAR alone was metabolized almost completely only by thymocytes and tonsil-derived B-lymphocytes. The greater percentage of counts (greater than 75%) were in the medium (deoxyinosine, hypoxanthine). Cellular counts were predominantly in adenine nucleotides, and to a lesser extent guanine nucleotides. Interestingly, both thymocytes and tonsil-derived B-lymphocytes, and a partially ADA deficient B lymphoblast line, accumulated detectable amounts of dATP even in the absence of ADA inhibition. Peripheral blood lymphocytes (PBMs) did not, and showed little dAR metabolism. In experiments simulating ADA deficiency varying amounts of 2'-deoxycoformycin (2'dCF) were needed to completely inhibit ADA (20-60 microM), with thymocytes requiring the highest amount. ADA inhibited thymocytes and tonsillar B-lymphocytes accumulated very high dATP levels, which were sustained to an equal extent by both over a 60-min period; PBMs accumulated the lowest values. Results in cultured cells reflected findings in previous studies. Some counts were also found in ATP by a route excluding ADA or PNP. These results again question the hypothesis that B-cells are more resistant than T-cells to the toxic effects of dAR because of an inability to accumulate and sustain elevated dATP levels and underline the lack of comparability between enzyme activity in intact as distinct from lysed cells. They cast doubt on the validity of cultured cells as a model for ADA deficiency and suggest the observed toxicity in some instances might result from altered ATP or GTP pools through inadequate ADA inhibition. They indicate that combined immunodeficiency in ADA deficiency could relate to an equal sensitivity of B-cells and T-cell precursors to the toxic effects of dATP accumulation.
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PMID:Human B lymphocytes and thymocytes but not peripheral blood mononuclear cells accumulate high dATP levels in conditions simulating ADA deficiency. 387 35

The toxicity of low concentrations of 2'-deoxyadenosine for T-lymphoblasts and certain null lymphoblasts has been attributed to the decreased degradation of the deoxynucleotides formed from deoxyadenosine in these cells. Low activities of the ectoenzymes ecto-5'-nucleotidase and ecto-ATPase have each been associated with deoxyadenosine sensitivity and dATP accumulation in human T-lymphoblasts. We studied a B-lymphoblast cell line, NC-37, which lacks detectable ecto-5'-nucleotidase and ecto-ATPase activities, but which is otherwise easily distinguishable from T-lymphoblasts by its low adenosine deaminase activity and its pattern of reactivity with monoclonal antibodies to cell surface antigens (Bl and IgM positive). The NC-37 B cells were completely analogous to other B-lymphoblast lines with high ectonucleotidase activities in their relative resistance to deoxyadenosine toxicity and low rates of dATP accumulation. This resistance could not be accounted for by lower rates of deoxyadenosine phosphorylating activity. Cytoplasmic nucleotidase activity in crude extracts from the NC-37 line was similar to that in other B-lymphoblasts with regard to both substrate specificity and optimal pH. We conclude that low ectonucleotidase activities are not etiologically associated with the accumulation of deoxynucleotides by human lymphoblasts, although they may serve as markers of deoxyadenosine sensitivity in certain malignant lymphoid cells.
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PMID:Purine metabolizing enzymes as predictors of lymphoblast sensitivity to deoxyadenosine. 614 83

Deoxyadenosine has been implicated in the lymphocytopenia that occurs in immunodeficient children with an inherited deficiency of adenosine deaminase (ADA) and in leukemic patients treated with the ADA inhibitor deoxycoformycin. The recent reports of deoxyadenosine toxicity to nondividing lymphocytes indicates a challenge to the mechanism for deoxyadenosine toxicity, which involves the inhibition of ribonucleotide reductase by dATP, leading to the inhibition of DNA synthesis. This study provides evidence for the inhibition of transcription by deoxyadenosine as an alternative mechanism of toxicity. The incubation of resting peripheral blood lymphocytes with deoxyadenosine plus deoxycoformycin led to an inhibition of uridine incorporation. The extent of inhibition increased with the increasing time of incubation and concentration of deoxyadenosine. Replacement of deoxyadenosine with other nucleosides, adenosine or deoxyguanosine, had no effect, suggesting that deoxyadenosine-induced inhibition was not due to the reduced transport of uridine. Separation of DNA from RNA by differential alkaline hydrolysis showed that the reduction of uridine incorporation was primarily in the RNA fraction. The time sequence of the reduction in uridine incorporation coincided with that of the accumulation of dATP, but preceded that of ATP depletion and cell lysis. The phosphorylation of uridine into UTP was slightly reduced by deoxyadenosine, but this could not entirely account for the reduced incorporation of uridine into RNA. Finally, the direct measurement of RNA synthesis by the incorporation of UTP into isolated nuclei showed that RNA synthesis was inhibited to 88% and 41% of control values in lymphocytes preincubated with 20 microM deoxyadenosine for 3 and 15 hr, respectively. These findings demonstrate that deoxyadenosine plus deoxycoformycin inhibits RNA synthesis in resting lymphocytes.
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PMID:Inhibition of RNA synthesis by deoxyadenosine plus deoxycoformycin in resting lymphocytes. 619 98

A child diagnosed at birth as deficient in red blood cell adenosine deaminase (ADA) but with substantial residual lymphocyte ADA has been evaluated for two and one-half years. The only immunologic abnormality observed was hypogammaglobulinemia during the fifth month of life. This was unexpected because children with total ADA deficiency either have severe combined immunodeficiency or selectively greater impairment of cellular than humoral immunity. The absence of severe combined immunodeficiency in this child was associated with normal lymphocyte content of ATP, dATP, and cyclic 3'5'-adenosine monophosphate, potentially toxic metabolites which are elevated in ADA-deficient immunodeficient children.
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PMID:Adenosine deaminase deficiency without immunodeficiency: clinical and metabolic studies. 625 20

Accumulation of dATP derived from 2'-deoxyadenosine (dAdo), causing inhibition of ribonucleotide reductase and depletion of the other deoxynucleotide substrates required for DNA synthesis, has been suggested as the cause of the lymphopenia and immune defect in inheritable deficiency of adenosine deaminase (adenosine aminohydrolase, EC 3.5.4.4). dAdo also inactivates the enzyme S-adenosylhomocysteine hydrolase (AdoHcyase; S-adenosyl-L-homocystein hydrolase EC 3.3.1.1) which is involved in the catabolism of S-adenosyl-L-homocysteine (AdoHcy), both a product and a potent inhibitor of S-adenosylmethionine-dependent transmethylation. We have tried to determine whether inactivation of AdoHcyase might also contribute to dAdo toxicity to adenosine deaminase-inhibited cells. dAdo rapidly inactivates intracellular AdoHcyase and causes the accumulation of AdoHcy in WI-L2 human B lymphoblastoid cells. Low concentrations of adenosine (Ado), which block binding of dAdo to purified AdoHcyase, prevented inactivation of intracellular AdoHcyase and also lessened the growth-inhibitory effect of dAdo. A mutant of this cell line which lacks Ado kinase and accumulated endogenously synthesized Ado was resistant to the effects of dAdo on both growth and AdoHcyase activity. The mutant also accumulated far less dATP from dAdo than did its parent and was resistant to the inhibitory effect of dAdo on DNA synthesis, indicating the Ado kinase is involved in dAdo phosphorylation in these cells. Combinations of deoxycytidine, thymidine, and deoxyguanosine that could prevent dATP-mediated depletion of deoxynucleotide pools but not AdoHcyase inactivation were less effective than Ado in preventing dAdo toxicity to normal lymphoblasts. Our results suggest that inactivation of AdoHcyase, as well as dATP accumulation, contributes to dAdo toxicity.
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PMID:Resistance of an adenosine kinase-deficient human lymphoblastoid cell line to effects of deoxyadenosine on growth, S-adenosylhomocysteine hydrolase inactivation, and dATP accumulation. 625 19

Loss of ATP accompanying accumulation of dATP has recently been reported to occur in the erythrocytes and lymphoblasts of patients with T lymphocytic leukemia during treatment with deoxycoformycin, an inhibitor of adenosine deaminase (adenosine aminohydrolase, EC 3.5.4.4) that causes the accumulation of deoxyadenosine. We have studied the mechanisms responsible for adenine ribonucleotide depletion in cultured human CEM T lymphoblastoid cells treated with deoxycoformycin and deoxyadenosine. Accumulation of dATP was accompanied by depletion of total soluble adenine ribonucleotides without change in the adenylate energy charge, by the route ATP --> AMP --> IMP --> inosine --> hypoxanthine; conversion of IMP to AMP and de novo purine synthesis were inhibited in these cells. ATP degradation did not occur in a mutant of CEM that was incapable of phosphorylating deoxyadenosine, or in a B cell line with very limited ability to accumulate dATP. We found that dATP and ATP were both able to stimulate markedly the deamination of AMP by lymphoblast AMP deaminase; dAMP was a poor substrate for this enzyme (K(m) = 2.4 mM, vs. 0.4 mM for AMP). Similarly, dATP as well as ATP caused marked activation of IMP dephosphorylation by a lymphoblast cytoplasmic nucleotidase. Inhibition of intracellular AMP deaminase with coformycin prevented degradation of adenine ribonucleotides without affecting dATP accumulation. We propose that ATP-dependent phosphorylation of deoxyadenosine generates ADP and AMP. Simultaneously, dATP accumulation stimulates deamination of AMP, but not dAMP, and the dephosphorylation of IMP to inosine. Coupling of AMP degradation to ATP utilization in deoxyadenosine phosphorylation maintains the adenylate energy charge despite net depletion of cellular ATP.
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PMID:Mechanism of deoxyadenosine-induced catabolism of adenine ribonucleotides in adenosine deaminase-inhibited human T lymphoblastoid cells. 628 40

Ara-C at very low dosage has been reported to decrease the host toxicity of ara-AMP or ara-A in combination with 2'-deoxycoformycin, a potent adenosine deaminase inhibitor, while increasing the toxicity to intracerebral L1210 leukemia. The possibility of increasing the selectivity of ara-A by prior administration of ara-C is explored. The importance of deoxynucleoside kinases, some of which may be cancer-induced, in obtaining selective anticancer effects is discussed. The possibility of a conformational basis for the differing degrees of selectivity and activity of various novel arabinosyl nucleosides is evaluated. The levels of cyclic nucleotides, which have opposing effects on leukemia, may possibly be manipulated to interfere with the growth of cancer cells. Approaches to minimizing major metabolic distortions, such as the progressive accumulation of dATP associated with the use of potent adenosine deaminase inhibitors and which limit the therapeutic effects of ara-A, are proposed.
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PMID:Biochemical and biophysical approaches to improving the anticancer effectiveness of Ara-adenine. 629 45

Adenosine deaminase (EC 3.5.4.4. - ADA) deaminates adenosine and deoxyadenosine to inosine and deoxyinosine. The distribution of ADA isoenzymes depends on a binding protein. Purine nucleoside phosphorylase (EC 2.4.2.1. - PNP) catabolizes inosine and guanosine to hypoxanthine and guanine. Patients with severe combined immuno-insufficiency often suffer from a congenital ADA deficiency. The PNP deficiency is associated with severely defective T-cell immunity and normal B-cell immunity. Deficiency of ADA leads to an accumulation of adenosine, deoxyadenosine, adenine nucleotides (cAMP, dATP). In PNP deficiency an increased production of inosine, guanosine, deoxyinosine and deoxyguanosine was found. The pathogenesis of the immuno-insufficiency is to be traced back to disturbances in the purine metabolism interfering with the mitogenically induced lymphocyte transformation and other lymphocyte functions, as determined by in vitro tests. Deoxyadenine inhibits the ribonucleoside diphosphate reductase and synthesis of DNA. The overproduction of S-adenosyl-L-homocysteine inhibits methyltransferase reactions and 2'-deoxyadenosine the S-adenosylhomocysteine hydrolase. A decrease of ADA activities was found in T-lymphocytes of patients with Hodgkin's disease. Measurements of ADA activity in patients with leukemias do not explain the impairment of the cellular immune response in leukemias and may be regarded as indicator of increased purine metabolism. The ADA activities are increased in patients with acute immature and chronic myeloic leukemias depending on the activity of the disease. The ADA activity is low in chronic lymphatic leukemia. ADA inhibitors were used for the treatment of T-cell leukemias.
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PMID:[Immune insufficiency in enzyme defects of purine metabolism]. 630 5

The inhibition of herpes simplex virus (HSV) replication by 2'-deoxyadenosine (dAdo) is greatly potentiated by the presence of the inhibitor of adenosine deaminase, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA). HSV replication is inhibited by dAdo [in the presence of EHNA] or by 2'-deoxyguanosine (dGuo) at concentrations slightly lower than are necessary to inhibit growth of uninfected HeLa cells. Under conditions where virus replication is inhibited by greater than 99% with dAdo and EHNA, the level of dATP increases 50-fold or more, and synthesis of HSV DNA is inhibited. However, there is no depletion of any other DNA precursor, and HSV multiplication is not restored by simultaneous provision of dGuo, deoxythymidine, deoxycytidine, or a combination of all three of these nucleosides. Thus, the inhibition of HSV replication by dAdo cannot be explained as a block of precursor provision through inhibition of ribonucleotide reductase. In contrast, dGuo treatment of HSV-infected cells leads to depletion of dCTP, and virus multiplication is partially restored by provision of deoxycytidine. HSV-infected cells may serve as a useful system for study of the toxic effects of dAdo that are unrelated to inhibition of ribonucleotide reductase by dATP.
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PMID:Inhibition of herpes simplex virus replication by purine deoxyribonucleosides. 632 76

Accumulation of intracellular deoxyadenosine triphosphate and inactivation of the enzyme S-adenosylhomocysteine hydrolase by deoxyadenosine have been suggested as molecular mechanisms for lymphoid toxicity of inherited or acquired deficiency of adenosine deaminase. The relative roles of these two deoxyadenosine-mediated effects for lymphotoxicity have been explored by employing mutant human T- and B-lymphoblasts deficient in either adenosine kinase, deoxycytidine kinase, or both. At low concentrations (less than 25 mumol/L) of deoxyadenosine or ara-adenine, deoxycytidine kinase deficiency decreases growth sensitivity of human T-lymphoblasts to deoxyadenosine approximately fourfold, and to ara-adenine approximately twofold. Loss of both activities completely eliminates deoxyadenosine phosphorylation and cellular dATP accumulation, and decreases deoxyadenosine growth sensitivity approximately 200-fold and ara-adenine sensitivity approximately 80-fold. The inactivation by deoxyadenosine of intracellular S-adenosylhomocysteine hydrolase activity of human adenosine deaminase-deficient B-lymphoblasts and wild-type or deoxycytidine kinase-deficient T-lymphoblasts is comparable, despite the differing toxicity of this compound for these cell lines. Adenosine kinase deficiency in T-lymphoblasts results in resistance to 2'-deoxyadenosine--but not ara-adenine--associated inactivation of S-adenosylhomocysteine hydrolase, and this compound produces comparable degrees of inactivation of S-adenosylhomocysteine hydrolase in both the wild-type and double mutant cells, despite markedly different growth sensitivity. For B-lymphoblasts, 2'-deoxyadenosine together with adenosine produces comparable growth inhibition of wild-type and adenosine kinase-deficient cells, and this inhibition is more marked than with adenosine alone, but is independent of S-adenosylhomocysteine hydrolase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:S-adenosylhomocysteine hydrolase inactivation and purine toxicity in cultured human T- and B-lymphoblasts. 633 Feb 51

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