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)

An adult patient with acute lymphoblastic leukemia associated with a 14q+ marker chromosome is presented. The abnormality resulted from a translocation of material from the long arm of chromosome 11. The leukemic cells were found to be B cells on the basis of surface immunoglobulins, lack of receptors for sheep erythrocytes, and a characteristically low level of adenosine deaminase activity. In other patients with ALL studied by us or reported by others in whom chromosome banding was done, a 14q+ chromosome was present in only one instance, also a case of B cell ALL. These two cases are the only examples of B cell ALL studied with chromosome banding reported to date. The frequent occurrence of a 14q+ chromosome in other malignant lymphoproliferative diseases of B cell origin suggests that a general association may exist between the 14q+ abnormality and B cell neoplasms. Cytogenetic analysis may therefore be useful in defining subtypes of ALL and in relating specific chromosomal abnormalities to lymphoproliferative disorders.
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PMID:B cell acute lymphoblastic leukemia (ALL) with a 14q+ chromosome abnormality. 31 Jun 97

Three established human T-cell lines, HPB-MLT, HPB-ALL and PEER, were characterized and tested for their sensitivity to deoxyadenosine (dAdo) plus deoxycoformycin (dCoF). Phenotypic characterizations showed that all three cell lines had receptors for peanut agglutinin (PNA) and soybean agglutinin (SBA) while HPB-MLT and HPB-ALL, but not PEER, expressed the cortical thymocyte-specific marker, CD1. The majority of HPB-MLT cells (88%) expressed only CD4 but not CD8 antigen while most HPB-ALL cells (81%) co-expressed CD8 and CD4 antigens. PEER cells were negative for both CD8 and CD4. These three T cell lines showed differential sensitivity to dAdo plus dCoF in consequent tests. dAdo or dAdo plus dCoF (1 microM) had no effect on the growth, or DNA and RNA synthesis of HPB-MLT cells while the combination of dAdo and dCoF partially inhibited cellular growth and DNA and RNA synthesis of HPB-ALL cells. Further, the growth and DNA and RNA synthesis of PEER cells were strongly inhibited by the combination of dAdo and dCoF. This high sensitivity to dAdo plus dCoF reflected an immature phenotype of PEER cells despite its expression of CD3. Flow cytometric analysis of PEER cells demonstrated disappearance of the G2/M phase cells from the cell cycle after treatment with dAdo plus dCoF. Measurements of adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) activities in all three cell lines, however, did not establish correlations between purine metabolizing enzyme activities and the differential sensitivities to dAdo plus dCoF. In sum, we report here three T-cell lines of different phenotypes that displayed significantly different sensitivities to dAdo plus dCoF which may facilitate investigations on the mechanisms of ADA deficiency.
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PMID:Characterization of three T-lymphoid cell lines with distinct sensitivities to deoxyadenosine plus deoxycoformycin. 137 28

We have previously shown that stimulation of the Ti/CD3 receptor complex on human T-cells potentiates adenylate cyclase activation by adenosine or forskolin. Anti-CD2 receptor antibodies shared with anti-CD3 antibodies the ability to potentiate dose dependently the adenosine- and forskolin-stimulated cyclic adenosine monophosphate (cAMP) accumulation, whereas stimulation of the CD45 receptor had no effect on cyclase activity. Modulation of the CD3 complex with anti-CD3 antibodies was found to decrease the CD2 receptor effect on adenylate cyclase activity greatly. The possible involvement of CD3-stimulated phospholipase C (PLC) activation on the cAMP potentiation was examined using HPB-ALL cells that express a CD3 complex with a defect coupling to PLC. Stimulation of the CD3 complex on HPB-ALL cells had only slight effects on adenosine-stimulated cAMP formation, whereas the effect on forskolin-stimulated cAMP was virtually unchanged. The CD3 effect was further analyzed in Jurkat cell membranes. In contrast to the results obtained after stimulation of intact cells, it was found that OKT3 stimulation of membranes did not potentiate the forskolin response. Finally, we tested whether inhibition of endogenous adenylate cyclase agonist production affected the CD3 effect. Inhibition of adenosine production or adenosine breakdown with 8-p-sulphophenyl theophylline (8-PST) or adenosine deaminase (ADA), respectively, did not alter the CD3 effects. Indometacin, which inhibits prostaglandin production, also had no effect. Together, these data show that stimulation of the CD2 receptor potentiates adenylate cyclase responses by a mechanism that is dependent on CD3 expression. Furthermore, the CD3 effect on cAMP appears to be mediated by two different mechanisms, one which is, and one which is not dependent on PLC. Finally, this effect is not due to an endogenous production of adenylate cyclase agonists.
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PMID:CD3-dependent increase in cyclic AMP in human T-cells following stimulation of the CD2 receptor. 167 13

We studied the activity of serum adenosine deaminase (ADA) and its isozyme in 36 leukemic patients (16 ANLL, 11 ALL, and 9 CML) and 8 MDS. Isozyme was measured by erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA) inhibitory assay. This assay was simple and reliable. The appearance rate of abnormally high ADA value were 81.24% for ANLL, 100% for ALL, 77.8% for CML and 37.5% for MDS. The ADA level became high when MDS turned into overt leukemia. In isozyme pattern, there was a clear difference between ANLL and ALL. The isozyme I/II ratio was significantly higher (p less than 0.001) in ALL than ANLL. Lymphoblastic crisis of CML also had a high isozyme I/II ratio. There was a correlation between isozyme I and absolute number of peripheral blasts in ALL (r = 0.768). When observed time sequentially, ADA and isozyme changed correlatively with the number of blasts counts. Serum ADA and its isozyme are useful parameters both for leukemic diagnosis and treatment.
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PMID:[Serum adenosine deaminase and its isozyme activity in leukemia and MDS]. 223 54

The 2',3'-dideoxynucleosides (ddNs) are currently undergoing clinical evaluation as antiretroviral agents in HIV-infected individuals. When phosphorylated, the ddNs (ddNTPs) function as chain-terminating substrate analogues with reverse transcriptase, thereby inhibiting HIV replication. These nucleoside analogues can also inhibit, by chain-terminating additions, the primitive lymphoid DNA polymerase, terminal deoxynucleotidyl transferase (TdT). To determine the effect of possible intracellular chain-terminating additions of ddNMPs by TdT, we exposed a series of TdT-positive and TdT-negative cell lines to 2',3'-dideoxyadenosine (ddA), a representative ddN. At ddA concentrations 25-fold higher than required for inhibition of HIV replication, progressive dose-related cytotoxicity was observed in the TdT-positive cell lines. This was accentuated by the adenosine deaminase inhibitor Coformycin (CF), presumably by enhancing the intracellular generation of ddATP from ddA. A central role of TdT in mediating the ddA/CF cytotoxicity was suggested by studies in a pre-B-cell line rendered TdT positive by infection with a TdT cDNA-containing retroviral vector. After a 48-hour continuous exposure period to 250 mumol/L ddA and 30 mumol/L CF, 30% cell death was observed in the TdT-negative parental line, whereas 90% cell death was observed in the TdT-positive daughter line. Exposure of fresh TdT-positive leukemic cells to ddA/CF for 72 hours ex vivo resulted in cytotoxicity (six cases of acute lymphocytic leukemia [ALL]) while not affecting TdT-negative acute leukemic cells (six cases). We conclude that ddA/CF selectively damages TdT-positive cells, presumably by chain-terminating additions of ddAMP, and that this may have therapeutic relevance in TdT-positive malignant disease.
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PMID:2',3'-Dideoxyadenosine is selectively toxic for TdT-positive cells. 283 1

The multidisciplinary approach of leukemia phenotyping, called multiple marker analysis, led to changes in the classification systems of normal hematopoiesis and leukemic cells, and introduced the use of a biological and functional definition of leukemia, rather than merely morphological-cytochemical descriptions. Two major conclusions can be drawn from the findings of multiple marker analysis: 1) differentiation of leukemia is not abnormal but blocked ("maturation arrest"), and leukemic cells retain normal maturation-linked markers; and 2) no leukemia specific marker could be detected so far. Although leukemic cells show general qualitative features in common with normal cells, some quantitative characteristics of these similar attributes are peculiar to leukemic blasts. Qualitative and quantitative enzymological characteristics help to identify the cell lineage involved and to determine the developmental point at which maturation arrest occurs. The expression of isoenzymes is often linked to the presumptive sequence of developmental stages. Subsets within ALL subtypes showed pronounced modifications in their isoenzyme patterns associated with increasing maturity. Thus, enzyme markers can provide refined definitions of subgroups by biochemical criteria. Based on recent observations using the enzyme markers TdT, adenosine deaminase, 5'-nucleotidase, purine nucleoside phosphorylase, acid phosphatase, and hexosaminidase, a scheme of enzymological expression in the various commonly accepted subtypes of acute lymphoid leukemia and acute nonlymphoid leukemia is presented. Enzyme marker analysis represents a useful tool as an adjunctive method in multiple marker analysis for assessing diagnosis, prognosis, and the evolutionary and pathogenetic mechanisms underlying the spectrum of leukemia subtypes. Furthermore, enzyme marker analysis may provide further insight into certain aspects of the pathobiology of leukemia which might not be elucidated by other methods.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Significance of enzyme markers as a part of multiple marker analysis in leukemia research. 300 Feb 10

A previously cloned partial adenosine deaminase cDNA insert (0.8 kilobase) was used to clone additional nucleotide sequences from human HPB ALL cDNA libraries. cDNA encompassing the entire coding, and 3'-untranslated regions as well as nearly all of the 5'-untranslated region was obtained. The complete amino acid sequence of the enzyme deduced from the cDNA sequence and protein sequencing consists of 362 amino acids, excluding the initiator Met, and accounts for Mr = 40,638. Secondary structure predictions assign adenosine deaminase to the alpha/beta class of proteins. Northern blot analysis with a cDNA probe showed adenosine deaminase mRNA to be present in normal to above normal amounts in B-lymphoblasts derived from adenosine deaminase-deficient patients with severe combined immunodeficiency disease. Knowledge of the cDNA and primary amino acid sequence of adenosine deaminase will be pivotal in further defining the genetic abnormality and its functional consequences in adenosine deaminase expression defects.
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PMID:Human adenosine deaminase. cDNA and complete primary amino acid sequence. 609 Apr 54

Two patients with relapsed acute lymphoblastic leukaemia of thymic phenotype (Thy-ALL) resistant to all conventional chemotherapy achieved complete remission when treated with 2'-deoxycoformycin, a selectively lymphocytotoxic compound that acts by inhibition of the enzyme adenosine deaminase. These observations show that malignant thymocytes are dependent on adenosine-deaminase activity and suggest that it may be possible to use deoxycoformycin in other patients with Thy-ALL to induce remission or to kill Thy-ALL blasts in bone marrow harvested before autologous bone-marrow transplantation, leaving normal haemopoietic stem cells intact.
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PMID:Remission induction with adenosine-deaminase inhibitor 2'-deoxycoformycin in Thy-lymphoblastic leukaemia. 610 39

Seventeen patients with acute leukaemia refractory to conventional chemotherapeutic agents were treated with the adenosine deaminase inhibitor, 2'-deoxycoformycin (dCF). Of the twelve patients with acute lymphoblastic leukaemia of the thymic phenotype (Thy-ALL), seven went into complete remission after one or two courses of therapy. Two other (Thy-ALL) patients showed good partial response, and three were resistant to dCF. The five patients with acute leukaemia of other phenotypes had progression of disease despite treatment with dCF. Response to dCF can be predicted from the pattern of change in cellular nucleotide levels in blood and/or bone marrow blasts which have been treated in vitro with dCF and deoxyadenosine. The main adverse effects of dCF therapy were renal and liver dysfunction, conjunctivitis, and haemolysis.
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PMID:Therapeutic selectivity of and predication of response to 2'-deoxycoformycin in acute leukaemia. 611 69

Hereditary deficiency of adenosine deaminase (ADA) usually causes profound lymphopenia with severe combined immunodeficiency disease. Cells from patients with ADA deficiency contain less than normal, and sometimes undetectable, amounts of ADA catalytic activity and ADA protein. The molecular defects responsible for hereditary ADA deficiency are poorly understood. ADA messenger RNAs and their translation products have been characterized in seven human lymphoblast cell lines derived as follows: GM-130, GM-131, and GM-2184 from normal adults; GM-3043 from a partially ADA deficient, immunocompetent !Kung tribesman; GM-2606 from an ADA deficient, immunodeficient child; CCRF-CEM and HPB-ALL from leukemic children. ADA messenger (m)RNA was present in all lines and was polyadenylated. The ADA synthesized by in vitro translation of mRNA from each line reacted with antisera to normal human ADA and was of normal molecular size. There was no evidence that posttranslational processing of ADA occurred in normal, leukemic, or mutant lymphoblast lines. Relative levels of specific translatable mRNA paralleled levels of ADA protein in extracts of the three normal and two leukemic lines. However, unexpectedly high levels of ADA specific, translatable mRNA were found in the mutant GM-2606 and GM-3043 lines, amounting to three to four times those of the three normal lines. Differences in the amounts of ADA mRNA and rates of ADA synthesis appear to be of primary importance in maintaining the differences in ADA levels among lymphoblast lines with structurally normal ADA. ADA deficiency in at least two mutant cell lines is not caused by deficient levels of translatable mRNA, and unless there is some translational control of this mRNA, the characteristic cellular ADA deficiency is most likely secondary to synthesis and rapid degradation of a defective ADA protein.
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PMID:Adenosine deaminase messenger RNAs in lymphoblast cell lines derived from leukemic patients and patients with hereditary adenosine deaminase deficiency. 613 54

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