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)

Deficiency of adenosine deaminase (ADA) is the cause of an autosomal recessive form of immunodeficiency. We sought to define, at a molecular level, the mutations responsible for ADA deficiency in the cell line GM-1715, derived from an immunodeficient patient. Full-length complementary DNA (cDNA) for ADA was synthesized and cloned from the cell line. Sequence analysis of the clones revealed a point mutation in codon 101 (CGG to CAG) that predicts an amino acid change from arginine to glutamine. Southern blot analysis, based on silent polymorphisms in the cDNA sequence, indicated that only one of the defective alleles of the GM-1715 line had been sequenced. The mutation that was identified appears to be responsible for the loss of function in this allele, since the predicted primary structure of the enzyme is otherwise entirely normal.
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PMID:Identification of a point mutation in the adenosine deaminase gene responsible for immunodeficiency. 383 2

The human adenosine deaminase cDNA has been cloned in a lambda-vector. Contained within a sequence of over 1500 nucleotides is an open reading frame of 1089 nucleotides that encodes the amino acids of ADA. The functional ADA gene contains at least six kilobases and has at least two introns. Using in vitro translation, molecular hybridization to ADA cDNA, and S1 nuclease mapping, ADA mRNA has been characterized in lymphoblast lines from seven different ADA-deficient children. All of the lines contain substantial amounts of RNA, which hybridizes specifically to the ADA cDNA. Four of the cell lines contain translatable mRNAs with small defects such as single base substitutions that are not detectable by S1 mapping. Deficiency of ADA activity in these lines appears secondary to synthesis of structurally altered proteins containing simple amino acid substitutions. Three of the lines contain mRNAs with S1 nuclease detectable defects. Some or all of these defective mRNAs are postulated to result from anomalous RNA processing. In these cases the causes of the ADA deficiency may be more complex than simple amino acid substitutions in the protein and could include small insertions or deletions of amino acids as well as changes in the efficiency of translation of the mRNAs.
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PMID:Molecular biology of the adenosine deaminase gene and messenger RNA. 386 73

A severe genetic deficiency of adenosine deaminase is causally associated with an autosomal recessive form of severe combined immunodeficiency disease, while subjects with absent erythrocyte but partial lymphocyte enzyme activity remain immunocompetent. The genetic expression of adenosine deaminase in B-lymphoblast cell lines derived from four unrelated subjects with the "partial" enzyme deficiency was examined. Enzymatic activity among these cell lines ranged from 5 to 50% of normal with the level of immunoreactive adenosine deaminase protein either proportional to enzyme activity or elevated in two of the cases. Northern blot analysis using a cDNA probe showed that adenosine deaminase mRNA in each of these cell lines was of normal expected size (1.6-1.8 kilobases) and was present in normal to above normal amounts. Rates of enzyme synthesis varied from 165 to 15% of normal. Adenosine deaminase protein degradation rates in these cell lines were 1.5 to almost 3 times faster than normal, consistent with the observed absence of the enzyme in erythrocytes. From these analyses apparent abnormalities in mRNA regulation, translation, and protein degradation can be identified among the partially adenosine deaminase-deficient cell lines studied. Ultimately, it will be essential to determine the nature of the protein mutation and the gene defect to define the structural alterations and functional abnormalities of enzyme variants isolated from subjects with partial adenosine deaminase deficiency.
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PMID:Genetic expression in partial adenosine deaminase deficiency. mRNA levels and protein turnover for the enzyme variants in human B-lymphoblast cell lines. 387 77

It remains unclear how lympholysis occurs in children with an inherited deficiency of adenosine deaminase (ADA) and in leukemic patients undergoing treatment with an inhibitor of ADA, deoxycoformycin. Adenosine deaminase deficiency with subsequent lympholysis can be simulated in vitro by treatment of lymphoid cells with deoxyadenosine plus deoxycoformycin. We found that such in vitro treatment caused fragmentation of the nucleus, disintegration of nuclear chromatin, and the formation of cytoplasmic blebs in T-lymphoblast lines, but not in B-lymphoblast lines. For all but one of the cell lines tested, the extent of morphological changes paralleled the sensitivity to growth inhibition by deoxyadenosine plus deoxycoformycin. Similar morphological changes were observed in normal peripheral blood lymphocytes treated with deoxyadenosine plus deoxycoformycin. These morphological changes were energy-dependent processes. They were preceded by inhibition of DNA synthesis and deoxyadenosine triphosphate (dATP) accumulation, but followed by depletion of adenosine triphosphate (ATP) and cell lysis. These changes may represent an intermediate step between metabolic alterations and lympholysis.
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PMID:Morphological changes in leukemic lymphoblasts and normal lymphocytes treated with deoxyadenosine plus deoxycoformycin. 387 81

Inherited deficiency of the enzyme adenosine deaminase (ADA) has been found in a significant proportion of patients with severe combined immunodeficiency disease and inherited defect generally characterized by a deficiency of both B and T cells. Two questions are central to understanding the pathophysiology of this disease: (1) at what stage or stages in lymphocyte development are the effects of the enzyme deficiency manifested; (2) what are the biochemical mechanisms responsible for the selective pathogenicity of the lymphoid system. We have examined the stage or stages of rat T-cell development in vivo which are affected by an induced adenosine deaminase deficiency using the ADA inhibitors, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) and 2'-deoxycoformycin (DCF). In normal rats given daily administration of an ADA inhibitor, cortical thymocytes were markedly depleted; peripheral lymphocytes and pluripotent hemopoietic stem cells (CFU-S) all were relatively unaffected. Since a deficiency of ADA affects lymphocyte development, the regeneration of cortical and medullary thymocytes and their precursors after sublethal irradiation was used as a model of lymphoid development. By Day 5 after irradiation the thymus was reduced to 0.10-0.5% of its normal size; whereas at Days 9 and 14 the thymus was 20-40% and 60-80% regenerated, respectively. When irradiated rats were given daily parenteral injections of the ADA inhibitor plus adenosine or deoxyadenosine, thymus regeneration at Days 9 and 14 was markedly inhibited, whereas the regeneration of thymocyte precursors was essentially unaffected. Thymus regeneration was at least 40-fold lower than in rats given adenosine or deoxyadenosine alone. Virtually identical results were obtained with both ADA inhibitors, EHNA and DCF. The majority of thymocytes present at Day 9 and at Day 14 in inhibitor-treated rats had the characteristics of subcapsular cortical thymocytes which are probably the most ancestral of the thymocytes. Thus, an induced ADA deficiency blocked the proliferation and differentiation of subcapsular cortical thymocytes which are the precursors of cortical and medullary thymocytes.
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PMID:The effects of an induced adenosine deaminase deficiency on T-cell differentiation in the rat. 387 60

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

In rat lymph node lymphocytes stimulated for 24 h by concanavalin A in the presence of 10(-5) M 2'-deoxycoformycin (a potent inhibitor of adenosine deaminase) and 10(-5) M 2'-deoxyadenosine the adenylic nucleotide pool was reduced by 55.5% without modification of either the adenylic energy charge or the ability of the cells to liberate interleukin 2. In the same conditions, the ability of rat spleen cells to bind exogenous interleukin 2 activity was not modified. The proliferative response to concanavalin A stimulation was completely inhibited after a 86-h culture period under adenosine deaminase deficiency conditions. It could not be restored by elimination of 2'-deoxyadenosine after a 20-h pretreatment, when adenylic nucleotide pool depletion was 72.4% whereas the interleukin 2 liberation ability was not suppressed. These results suggest that among the early consequences of adenosine deaminase deficiency conditions, which occur before S phase of the cell cycle, the depletion of adenylic nucleotide pool, rather than the impairment of interleukin 2 liberation and absorption capacities, may account for the inability of the lymphocytes to respond to mitogenic stimulation.
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PMID:Interleukin 2 liberation and absorption capacities of rat T lymphocytes in conditions of severe adenylic nucleotide pool depletion due to adenosine deaminase deficiency. 387 9

Congenital deficiency of the enzyme adenosine deaminase (ADA) results in severe combined immunodeficiency. 2'deoxycoformycin (2'dcf) is a tightly binding inhibitor of ADA, and the drug makes it possible to mimic a state of ADA deficiency. In this study we tested the immunosuppressive effect of 2'dcf in a rat skin transplantation model. Rats treated with continuous infusion of 2'dcf at doses of 0.3 mg/kg, 0.5 mg/kg and 0.7 mg/kg body wt/day showed significant prolongation of graft survival. 2'dcf given by bolus injections did not prolong graft survival. In rats treated with continuous infusion of 2'dcf at a dose of 0.7 mg/kg body wt/day mean graft survival time (MST) after withdrawal of treatment was equal to MST in untreated animals, suggesting that during 2'dcf treatment allograft rejection was completely suppressed. In vitro, lymphocytes isolated from animals treated with continuous infusion of 2'dcf showed marked suppression of mitogen response. The 2'dcf preferentially effects lymphocytes, but neutrophils seem resistant to the effect of the drug. The lymphocytotoxic effect of the drug is extreme; during therapy splenic weight decreased by almost 50% and the differential lymphocyte count in blood decreased from 85% to 17%. Immunofluorescence studies showed that, within the spleen, the amount of T cells and B cells decreased markedly. Both T cell subsets were affected--OX8+ cells (suppressor/cytotoxic T cells) and W3/25+ (helper T cells). However OX8+ cells were more resistant to the drug than W3/25+ cells. Skin-grafted rats treated with 2'dcf showed a strong decrease in the W3/25: OX8 ratio. In contrast, untreated rats showed a slight increase in the ratio after skin transplantation. It is concluded that 2'dcf is a strong immunosuppressive drug in rats if given by continuous infusion.
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PMID:Complete suppression of skin allograft rejection in rats treated with continuous infusion of 2'deoxycoformycin. 389 17

Deficiency of the purine salvage enzymes purine nucleoside phosphorylase (PNP) and adenosine deaminase (ADA) are known causes of immunodeficiency. Evidence for inhibition of these enzymes was sought in 16 patients on azathioprine therapy by testing for deoxyguanosine (PNP deficiency) and deoxyadenosine (ADA deficiency) in urine using a novel phosphorescence method. These abnormal nucleosides were not found in urine of azathioprine treated patients or in 30 normal controls but were easily detected in urine from proven cases of PNP and ADA deficiency suggesting lack of in vivo inhibition of PNP and ADA by azathioprine.
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PMID:Lack of inhibition of purine nucleoside phosphorylase and adenosine deaminase in patients treated with azathioprine. 391 49

Erythro-9-(2-hydroxy-3-nonyl)-adenine (EHNA) has been used by many workers as enzyme inhibitor in vitro to simulate the in vivo situation in inherited adenosine deaminase (ADA) deficiency. In this study the metabolism of 8-14C deoxyadenosine (dAR) has been followed in cultured lymphocytes from patients deficient in enzymes associated with the catabolism and salvage of dAR, in the absence and presence of 10 microM EHNA. The results show that EHNA, at these concentrations, does not prevent the catabolism of dAR and thus does not provide a valid model for investigating the toxicity to the immune system in inherited ADA deficiency.
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PMID:EHNA is a poor inhibitor of deoxyadenosine catabolism in cultured human lymphocytes. 392 78

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