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)

Blood samples collected in a single Pygmy tribe, the Aka, living in Bokoka district (Central African Empire) were investigated with respect to the phenotype and gene frequencies of the following 12 enzyme systems: acid phosphatase, adenosine deaminase, adenylate kinase, carbonic anhydrase, esterase D, glucose-6-phosphate dehydrogenase, malate dehydrogenase, phosphoglucomutase 1, phosphoglucomutase 2, phosphogluconate dehydrogenase, superoxide dismutase and serum cholinesterase variants (locus E1 and E2). The data obtained in the study of genetic polymorphisms of this isolated and inbred population show a specific pattern with the following characteristics: the very low frequency of PGDB and pa alleles; the existence of two rare PGM variants at the PGM2 locus, typical PGM26Pyg (4.2%) and PGM29 (0.2%); the high frequency of the pr allele (10.8%) and CAII2 (8.22%) and ESD2 genes (18.4%). Furthermore, at the G6PD locus four distinct alleles have been found: the negroid GdA- (4%) and GdA+ (16%), the common GdB+ (79.2%)--, and the rare Gd+Ibadan Austin (0.7%). Cholinesterase typings disclosed the presence of the uncommon E1f and E1s genes distributed within a single breeding unit. The results are compared with other data previously reported on South African Khoisan and some Negroid populations; the particular genetic background of Pygmies is discussed.
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PMID:Population genetic studies of the Aka pygmies (Central Africa): a survey of red cell and serum enzymes. 46 35

Poly(ethylene glycol) (PEG) is a water soluble polymer that when covalently linked to proteins, alters their properties in ways that extend their potential uses. PEG-modified conjugates are being exploited in many different fields. The improved pharmacological performance of PEG-proteins when compared with their unmodified counterparts prompted the development of this type of conjugate as a therapeutic agent. Enzyme deficiencies for which therapy with the native enzyme was inefficient (due to rapid clearance and/or immunological reactions) can now be treated with equivalent PEG-enzymes. PEG-adenosine deaminase has already obtained FDA approval. PEG-modified cytokines have been constructed and, interestingly, one of the conjugates, PEG-modified granulocyte-macrophage colony-stimulating factor, showed dissociation of two biological properties. This novel observation may open new horizons to the application of PEGylation technology. The biotechnology industry has also found PEG-proteins very useful because PEG-enzymes can act as catalysts in organic solvents, thereby opening the possibility of producing desired stereoisomers, as opposed to the racemic mixture usually obtained in classical organic synthesis. Covalent attachment of PEG to proteins requires activation of the hydroxyl terminal group of the polymer with a suitable leaving group that can be displaced by nucleophilic attack of the epsilon-amino terminal of lysine residues (other nucleophilic groups can also interact). Several chemical groups have been exploited to activate PEG, thereby giving rise to a variety of PEG-proteins. Some of these varieties retain part of the activating group as a coupling moiety between PEG and protein and others provide a direct linkage. For each particular application, different coupling methods provide distinct advantages.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The uses and properties of PEG-linked proteins. 145 45

Adenosine deaminase (ADA) deficiency may manifest as severe combined immunodeficiency (SCID) in early infancy. Some of these children develop radiologic changes which may be in part related to effects of this enzyme deficiency on the bony epiphysis. We describe the radiologic changes in a neonate with ADA deficiency and their resolution with polyethylene glycol conjugated adenosine deaminase (PEG-ADA, ADAGEN: Enzon, Inc., South Plainfield, NJ) enzyme replacement therapy.
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PMID:Chondroosseous dysplasia in severe combined immunodeficiency due to adenosine deaminase deficiency (chondroosseous dysplasia in ADA deficiency SCID). 174 85

The effect of polyethylene glycol-adenosine deaminase (PEG-ADA) therapy on biochemical, immunological and clinical abnormalities in an ADA-deficit child with severe combined immunodeficiency has been studied. Following PEG-ADA therapy, total lymphocytes, lymphocyte subsets (CD3, CD4 and CD8) and the response of lymphocytes to non specific mitogens increase significantly. The improvement of immunological functions is closely related to a decrease of erythrocyte deoxyadenosine triphosphate (dATP) concentrations. This study shows that PEG-ADA therapy is sufficiently effective to reduce and to maintain erythrocyte dATP levels at values compatible with normal immune functions. PEG-ADA represents an important progress for the treatment of ADA deficiency associated with severe combined immunodeficiency disease.
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PMID:[Polyethylene glycol-adenosine deaminase: a new adenosine deaminase deficiency therapy. Value of deoxyadenosine triphosphate determination for therapeutic monitoring]. 194 9

Polyethylene glycol was attached covalently to adenosine deaminase (ADA) using cyanuric chloride as the coupling agent. The modified adenosine deaminase (PEG-ADA) appears to lose its immunogenicity in mice following multiple intravenous injections. PEG-ADA does not react with antibodies raised against native ADA. The circulating half-life (T1/2) of PEG-ADA was increased to 28 hr. The lack of detectable antibody formation and long circulating life may make PEG-ADA suitable for treating human ADA deficiency.
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PMID:Alteration of the circulating life and antigenic properties of bovine adenosine deaminase in mice by attachment of polyethylene glycol. 733 81

Polyethylene glycol-modified adenosine deaminase (PEG-ADA) has now been used for 8.5 years as enzyme replacement therapy for immunodeficiency due to ADA deficiency. PEG-ADA restores a metabolic environment necessary for recovery of immune function. In most cases, the level of function achieved has been sufficient to protect against opportunistic and life-threatening infections. To date, mortality and morbidity with PEG-ADA have been less than for haploidentical bone marrow transplantation. As a true "orphan drug" used to treat a very small patient population, the cost per patient of PEG-ADA is very high, but it has been well tolerated, free of adverse reactions, and effective as an alternative for patients who lack an HLA-identical marrow donor, but are considered too ill to undergo haploidentical marrow transplantation. Concomitant treatment with PEG-ADA has also permitted investigation of gene therapy to be carried out safely.
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PMID:PEG-ADA replacement therapy for adenosine deaminase deficiency: an update after 8.5 years. 755 73

Significant increases in lymphocyte adenosine deaminase activity, T cell numbers and immune function have been achieved in the two children with SCID thus far treated with autologous T cells genetically-corrected by retroviral-mediated insertion of a normal ADA gene. Although the data obtained to date demonstrate that the use of ADA gene corrected peripheral T cells appears to be an effective treatment for ADA(-)SCID, it is theoretically preferable to try to develop a treatment for these children that will result in stem cell gene correction. The genetic correction of T cell progenitors with long-term immune reconstituting ability would be more desirable because repeated infusions of genetically altered cells should not be necessary and the generation of a more complete repertoire of T cell specificities might also be possible. Furthermore, the present treatment protocol involves indefinite continuation of enzyme replacement treatment with PEG-ADA. The demonstration of ADA gene expression in the progeny of transduced stem cells may simplify the decision concerning cessation of this very costly enzyme treatment (approximately $250,000/yr./patient). Recent evidence suggests that a small fraction of bone marrow or peripheral blood mononuclear cells bearing the CD34 antigen contains hematopoietic stem cells with both lymphoid and myeloid reconstituting ability. We propose in this amendment to supplement the infusion of human ADA gene-transduced autologous T cells in children with ADA(-)SCID with autologous peripheral blood CD34+ cells transduced with a second, readily distinguishable ADA vector.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Treatment of severe combined immunodeficiency disease (SCID) due to adenosine deaminase deficiency with CD34+ selected autologous peripheral blood cells transduced with a human ADA gene. Amendment to clinical research project, Project 90-C-195, January 10, 1992. 769 Nov 88

PEG-ADA is a long-circulating form of adenosine deaminase (ADA) that has been in use for > 8 years as replacement therapy for severe combined immunodeficiency disease due to ADA deficiency. Treatment with PEG-ADA almost completely corrects metabolic abnormalities, allowing the recovery of a variable degree of immune function. Although not normal, the level of function achieved has in most cases been sufficient to protect against opportunistic and life-threatening infections. PEG-ADA has been used as an alternative for patients who lack an HLA-identical bone marrow donor, but are judged to be at too high a risk for undergoing HLA-haploidentical marrow transplantation. To date, mortality and morbidity with PEG-ADA have been less than for the latter procedure. PEG-ADA has also been an important adjunct to attempts to develop somatic cell gene therapy for ADA deficiency, although its continued use poses a problem for evaluation of the benefit of gene therapy. As a true "orphan drug" developed to treat a very small patient population, the cost per patient of PEG-ADA is very high.
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PMID:PEG-ADA: an alternative to haploidentical bone marrow transplantation and an adjunct to gene therapy for adenosine deaminase deficiency. 774 7

Of the currently available options for the treatment of ADA deficiency, the treatment of choice remains transplantation of bone marrow from an HLA identical donor. When an HLA-identical donor is not available, haploidentical BMT or enzyme replacement needs to be considered and evaluated on an individual basis. Haploidentical BMT may be potentially curative, but this form of therapy is not without risks, especially in severely ill patients or in patients requiring cytoablation. The ability to utilize PEG-ADA even in ill patients, is certainly an advantage over haploidentical BMT. Polyethylene glycol-adenosine deaminase enzyme replacement usually entails a shorter time of hospitalization, but is very expensive for long-term treatment. The expense will increase as the patient requires higher doses of the enzyme replacement with increasing weight. Although PEG-ADA enzyme replacement therapy has been shown to be effective without significant risks to patients with SCIDS, there is increasing concern that this form of therapy may be jeopardized due to expense for long-term treatment in the current era of managed care and health care reforms. The use of PEG-ADA enzyme replacement is associated with decreased morbidity and mortality when compared with haploidentical BMT transplantation. There have been only two deaths among the 29 patients treated with PEG-ADA. In contrast, the 2-year survival for BMT in ADA deficient patients is quite variable ranging from 0% to 66%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Management options: SCIDS with adenosine deaminase deficiency. 817 25

Severe combined immunodeficiency (SCID) caused by deficiency of the enzyme adenosine deaminase (ADA) is the first genetic disorder considered for human somatic cell gene therapy. ADA-SCID patients can be cured by HLA-matched sibling donor bone marrow transplantation. Alternative transplantation strategies as well as enzyme replacement are being tested in those patients who do not have a suitable matched sibling donor. Some ADA-SCID patients may not be candidates for cytoablation due to infectious damage to the lung or liver, or may have a milder phenotype that does not justify the risks associated with haploidentical bone marrow transplantation. Replacement therapy with PEG-ADA has resulted in improvement in growth, a variable increase in the number of peripheral blood lymphocytes, and a decrease in the incidence of severe infections. Another approach to the treatment of severe genetic diseases is now represented by somatic cell gene therapy. We and others have conducted experiments in vitro and in vivo that have documented that T-lymphocytes are suitable vehicles for gene transfer. Although the pluripotent stem cell remains the ideal target cell for somatic cell gene therapy of disorders of the hematopoietic system, the use of T-lymphocytes as gene therapy vehicles is specifically indicated for ADA-deficient patients where they represent the affected cells. Furthermore, the selective engraftment of T-cells only, following bone marrow transplantation, has resulted in reconstitution of cellular and humoral immunity. A model for the functional analysis in vivo of the human immune system has been utilized for the preclinical evaluation of this approach.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transfer of the ADA gene into bone marrow cells and peripheral blood lymphocytes for the treatment of patients affected by ADA-deficient SCID. 839 94

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