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)

Adenosine deaminase (ADA) deficiency, an autosomal recessive inborn error of metabolism, leads to severe combined immune deficiency in man. This enzyme, although constitutively expressed in most tissues, is expressed at high level in immature T cells, and study of the pathophysiology of the disorder indicates that increased deoxyadenosine or altered methylation capacity have toxic effects on T-cell maturation. Although bone marrow transplantation can correct the immune deficiency, this therapy is associated with graft-versus-host disease and incomplete immune restoration, and so our laboratory and others have sought to develop a method of gene replacement as a possible treatment for the disease. Moreover, characterization of the complementary DNA of the human ADA gene and some of its mutants makes it possible to design gene transfer strategies. We have now subcloned a human adenosine deaminase cDNA into the retrovirus shuttle vector pZIP-SV(B), and in this way have isolated a cell line, 4.2T, which produces high titres of replication-defective retrovirus which have been used to transfer the gene for human ADA to mouse bone marrow cells. Transfer and expression of the neomycin-resistance gene (neo) and the ADA gene in murine bone marrow colony-forming units (CFU) was demonstrated by in vitro colony formation in the presence of the antibiotic G418 or 9-xylofuranosyladenine plus deoxycoformycin, respectively. Isoenzyme analysis also showed human ADA expression in the cultured mouse bone marrow.
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PMID:Expression of human adenosine deaminase in murine haematopoietic progenitor cells following retroviral transfer. 301 51

The number of gene assignments to human chromosome 20 has increased slowly until recently. Only seven genes and one fragile site were confirmed assignments to chromosome 20 at the Ninth Human Gene Mapping Workshop in September 1987 (HGM9). One fragile site, 13 additional genes, and 10 DNA sequences that identify restriction fragment length polymorphisms (RFLPs), however, were provisionally added to the map at HGM9. Five mutated genes on chromosome 20 have a relation to disease: a mutation in the adenosine deaminase gene results in a deficiency of the enzyme and severe combined immune deficiency; mutations in the gene for the growth hormone releasing factor result in some forms of dwarfism; mutations in the closely linked genes for the hormones arginine vasopressin and oxytocin and their neurophysins are probably responsible for some diabetes insipidus; and mutations in the gene that regulates both alpha-neuraminidase and beta-galactosidase activities determine galactosialidosis. The gene for the prion protein is on chromosome 20; it is related to the infectious agent of kuru, Creutzfeld-Jacob disease, and Gertsmann-Straussler syndrome, although the nature of the relationship is not completely understood. Two genes that code for tyrosine kinases are on the chromosome, SRC1 the proto-oncogene and a gene (HCK) coding for haemopoietic kinase (an src-like kinase), but no direct relation to cancer has been shown for either of these kinases. The significance of non-random loss of chromosome 20 in the malignant diseases non-lymphocytic leukaemia and polycythaemia vera is not understood. Twenty-four additional loci are assigned to the chromosome: five genes that code for binding proteins, one for a light chain of ferritin, genes for three enzymes (inosine triphosphatase, s-adenosylhomocysteine hydrolase, and sterol delta 24-reductase), one for each of a secretory protein and an opiate neuropeptide, a cell surface antigen, two fragile sites, and 10 DNA sequences (one satellite and nine unique) that detect RFLPs.
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PMID:The map of chromosome 20. 307 44

Cancer incidence and mortality were analyzed in 1,181 blood relatives and 558 spouse controls in 24 families of severe combined immune deficiency (SCID) patients, to test the hypothesis that heterozygous carriers of a gene for an autosomal recessive form of SCID are predisposed to cancer. Since at least 1 patient in each family was female and there were no cases outside the probands' sibships, the pattern of occurrence of SCID within the families was compatible with autosomal recessive inheritance. The observed numbers of cancer cases and deaths did not exceed the expected numbers derived from population-based rates; and there was no cancer excess when incidence rates in blood relatives were compared directly to those in spouse controls, since the rate ratios were 1.2 and 1.0 for males and females, respectively. In addition, cancer rate ratios were not significantly elevated when calculated separately for the 9 families of adenosine deaminase (ADA)-deficient SCID patients and for the 15 families without evidence of ADA deficiency.
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PMID:Cancer in families with severe combined immune deficiency. 346 59

We have investigated the structural gene for adenosine deaminase (ADA) in a female infant with ADA deficiency associated severe combined immune deficiency (ADA-SCID) disease and her family by DNA restriction-fragment-length analysis. In this family a new ADA-specific restriction-fragment-length variant was detected, which involves a 3.2-kb deletion spanning the ADA promoter as well as the first exon. It was found that the patient, who was born to a consanguineous couple, was homozygous and both her parents and her brother were heterozygous for the deletion. No ADA-specific mRNA could be detected by hybridization in fibroblasts derived from this patient. Thus the patient was established to be homozygous for a true null ADA allele. In the light of the apparently normal development of most tissues except the lymphoid tissue the above finding directly questions the classification of ADA as a 'housekeeping' enzyme.
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PMID:Severe combined immune deficiency due to a homozygous 3.2-kb deletion spanning the promoter and first exon of the adenosine deaminase gene. 368 97

The purine metabolic enzymes adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) are important in lymphocyte differentiation, and genetic deficiencies of either enzyme have been associated with hereditary immunodeficiency states. Both ADA and PNP activity were measured in null cell-enriched and T cell-enriched peripheral blood lymphocytes from 16 patients with the acquired immune deficiency syndrome (AIDS), seven patients with the AIDS-related symptom complex (ARC), and seven asymptomatic homosexuals. ADA activity in nmol/10(6) lymphocytes/h was significantly elevated in null lymphocytes from AIDS (161 +/- 12) as compared with 23 healthy heterosexual controls (127 +/- 8;P less than .025). PNP activity was also significantly increased in null lymphocytes from AIDS patients (96 +/- 10;P less than .005) as well as those from ARC patients (84 +/- 11:P less than .025) relative to controls (61 +/- 5). No significant differences in enzyme activity were noted in T cell-enriched cells in any group. Along with elevated enzyme activity, AIDS patients had small yet significant increases in the percentages of HLA-DR (P less than .025), terminal deoxynucleotidyl transferase (TdT) (P less than .0001), and peanut agglutinin receptor (P less than .0001) positive lymphocytes in the null fraction compared with controls. TdT-positive cells appeared morphologically as large lymphoblasts with irregular nuclei. The data imply that the cellular immune deficiency in AIDS is not a result of deficiencies in lymphocyte ADA or PNP activity, but is more likely associated with an increase in an immature and/or activated lymphocyte subset.
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PMID:Elevated adenosine deaminase and purine nucleoside phosphorylase activity in peripheral blood null lymphocytes from patients with acquired immune deficiency syndrome. 392 55

In the presence of 10(-4) to 10(-5) molar adenosine, established cell lines of fibroblastic or lymphoid origin die of pyrimidine starvation. Less than lethal concentrations inhibit cell growth. Over a broad concentration range, the effects of adenosine are prevented by providing a suitable pyrimidine source. We suggest that the recently described immune deficiency disease associated with absence of adenosine deaminase may be the result of pyrimidine starvation induced by adenosine nucleotides in cells of the lymphoid system.
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PMID:Pyrimidine starvation induced by adenosine in fibroblasts and lymphoid cells: role of adenosine deaminase. 479 49

A simple method is described for diagnosing adenosine deaminase and purine nucleoside phosphorylase deficiency using urine. Cellulose thin layer chromatography of 1 microliter of urine from affected children was performed and deoxyadenosine and deoxyguanosine were easily detected by phosphorescence at the temperature of liquid nitrogen. This test is not expensive and can be done in any laboratory. It should be suitable for diagnostic screening in patients with immune deficiency.
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PMID:Immune deficiency due to adenosine deaminase and purine nucleoside phosphorylase deficiency: a simple diagnostic test. 643 86

The staphylococcal cell wall component protein A (SpA) and formalinized, Cowan I strain Staphylococcal organisms (STA) were compared with the lectins phytohemagglutinin, concanavalin A, and pokeweed mitogen for their ability to trigger proliferation of normal human lymphocytes, lymphocyte subpopulations, and cells from patients with primary immune deficiency diseases. SpA was found to be a potent T cell mitogen, very similar to the other lectins tested. It failed to stimulate purified non-T cells and peripheral blood lymphocytes from patients with different forms of severe combined immunodeficiency disease (SCID). STA, treated to prevent the leakage of soluble SpA during culture, exclusively stimulated non-T cells: the responding cell population was characterized to be E-rosette negative but positive for C3 receptors, surface Ia, a receptor for STA itself, and likely carried surface immunoglobulin. Normal responses to STA were found in patients with the adenosine deaminase-positive form of SCID. In 18 patients with humoral immune deficiency syndromes, the presence of STA responses was correlated with the presence of circulating, surface immunoglobulin-bearing cells. A commercial STA preparation was rendered B cell specific after reformalinization, a procedure that eliminated the shedding of soluble SpA under culture conditions.
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PMID:Polyclonal activation of human lymphocytes in vitro. I. Characterization of the lymphocyte response to a T cell-independent B cell mitogen. 696 91

Gene therapy is an innovative technique utilized in the treatment of a primary immunodeficiency known as severe combined immune deficiency syndrome (SCIDS). The first human trials of gene therapy for SCIDS were conducted in 1990, by attempting to insert the gene for adenosine deaminase into peripheral white blood cells to treat children with adenosine deaminase (ADA)-deficiency SCIDS. Recently, three infants with ADA-deficiency SCIDS received gene therapy with genetically manipulated hematopoietic stem cells. This clinical update reviews basic immunology function and malfunction, describes gene therapy, and specifically highlights hematopoietic stem cell gene therapy treatment for ADA-deficiency SCIDS.
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PMID:Gene therapy techniques in the treatment of adenosine deaminase--deficiency severe combined immune deficiency syndrome. 815 12

Application of gene therapy to treat genetic and infectious diseases may have several advantages if performed in newborns. Because of the minimal adverse effect of the underlying disease on cells of the newborn, the relatively small size of infants, and the large amount of future growth, gene therapy may be more successful in newborns than in older children or adults. The presence of umbilical cord blood from newborns provides a unique and susceptible target for the genetic modification of hematopoietic stem cells. In our first trial of gene therapy in newborns, we inserted a normal adenosine deaminase gene into umbilical cord blood cells of three neonates with a congenital immune deficiency. The trial demonstrated the successful transduction and engraftment of stem cells, which continue to contribute to leukocyte production more than 3 years later. A similar approach may be taken to insert genes that inhibit replication of HIV-1 into umbilical cord blood cells of HIV-1-infected neonates. Many other metabolic and infectious disorders could be treated by gene therapy during the neonatal period if prenatal diagnoses are made and the appropriate technical and regulatory requirements have been met.
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PMID:Gene therapy for newborns. 924 Sep 65

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