Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.4.4 (adenosine deaminase)
 5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Retroviral vectors carrying the neomycin phosphotransferase (neo) gene have been shown to confer G418 resistance to canine keratinocytes at relatively high frequency. To investigate the usefulness of keratinocytes as potential target cells for gene therapy, we used a retroviral vector (LASN) that contains both human adenosine deaminase (hADA) and neo genes. We show here that LASN-transduced canine keratinocytes expressed high levels of hADA, a human protein of therapeutic relevance. Selection of LASN-transduced keratinocytes in medium containing G418 resulted in a population of cells that expressed even higher levels of hADA, about 80-fold higher than the endogenous canine ADA level. However, the G418-selected cells had a reduced proliferative potential and altered morphology indicative of terminal differentiation. To test whether L-histidinol is more beneficial for selection of keratinocytes than G418, we constructed two retroviral vectors that contain both the neo and the histidinol dehydrogenase (hisD) genes. Cocultivation of primary keratinocytes with lethally irradiated PA317 retrovirus packaging cells that produce these vectors gave rise to 12-53% drug-resistant colonies in either G418 or L-histidinol. In contrast to G418, selection of transduced keratinocytes in L-histidinol had no apparent effect on the proliferative potential or morphology of drug-resistant cells containing the vectors. Given the utility of this selection system, two hisD-based generic constructs containing cloning sites for cDNA expression from either the retroviral promoter or from an internal human cytomegalovirus immediate early promoter were constructed. Our results suggest that hisD will be a useful selectable marker for use in studies of keratinocyte differentiation and for transfer of genes into keratinocytes for the purposes of gene therapy.
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PMID:L-histidinol provides effective selection of retrovirus-vector-transduced keratinocytes without impairing their proliferative potential. 165 May 86

Amphotropic helper-free retrovirus vectors containing the bacterial neomycin phosphotransferase gene (neo) and the human adenosine deaminase gene (adenosine aminohydrolase, EC 3.5.4.4; ADA) were used to transduce canine marrow cells. In one approach, dogs were treated for 7 days with recombinant human granulocyte colony-stimulating factor to stimulate hematopoietic cell division. Bone marrow cells were collected and transduced by 24 hours of cocultivation on vector-producing cells followed by incubation in a vector-containing long-term marrow culture system for 4 days. Transduced autologous marrow (0.4 to 1.0 x 10(8) cells/kg) was infused into dogs administered otherwise lethal total body irradiation (TBI) of 920 cGy. Two of four dogs engrafted, and their marrows showed intermittently between 1% and 11% G418-resistant colony-forming unit granulocyte-macrophage (CFU-GM) colonies for up to 2 years after transplantation. In a different experimental approach, autologous marrow, obtained at the time of the PB neutrophil nadir 7 days after a single cyclophosphamide injection (40 mg/kg intravenously), was cocultivated for 24 hours on vector-producing cells and infused at doses of 0.06 to 0.18 x 10(8) cells/kg into dogs administered 920 cGy TBI. One of three dogs engrafted, and the marrow showed intermittently 1% to 10% G418-resistant CFU-GM colonies for at least 2 years. Culture results were confirmed by polymerase chain reaction (PCR) showing the presence of the neo gene in marrow cells, peripheral blood (PB) granulocytes, and PB and lymph node lymphocytes. Dilution experiments indicated that up to 10% of marrow, lymph node, and PB cells contained the neo gene, consistent with the culture results. Samples harboring the neo gene also contained the gene for human ADA. However, repeated analyses of PB and marrow cells for human ADA gene expression by starch gel electrophoresis were negative. PB samples of all dogs were free of helper virus, and no long-term side effects from the transduction were observed.
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PMID:Retrovirus-mediated gene transduction into long-term repopulating marrow cells of dogs. 172 5

Lymphocytes can be readily transduced with retroviral vectors and the gene-modified lymphocytes will stably express the inserted genes in vitro for long periods. As a prelude to studies in humans, we evaluated the survival of gene-modified T lymphocytes and the expression of the introduced genes in nonhuman primate T lymphocytes both in vitro and in vivo to determine if lymphocytes could be a potential cellular gene therapy vehicle. Rhesus peripheral blood T-lymphocytes and/or lymph node lymphocytes were transduced with a retroviral vector that contained a bacterial neomycin resistance (NeoR) gene or both NeoR and the human adenosine deaminase (hADA) genes. The cells were then selected for NeoR expression by growth in the neomycin analogue G418 and the autologous gene-modified T cells were reintroduced into the donor animals. T lymphocytes were periodically regrown from the blood and selected in G418. Gene-modified cells persisted in 1 animal for 727 days as detected by analysis for vector DNA by polymerase chain reaction (PCR). Evidence for expression of the human ADA or NeoR genes has also been detected up to 727 days after cell infusion. These findings suggest that gene-modified T lymphocytes can survive and circulate for long periods in vivo and can continue to express the introduced genes.
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PMID:In vivo expression and survival of gene-modified T lymphocytes in rhesus monkeys. 196 96

The application of bone marrow gene therapy has been stalled by the inability to achieve stable high-level gene transfer and expression in the totipotent stem cells. We show that retroviral vectors can stably introduce genes into antigen-specific murine and human T lymphocytes in culture. Murine helper T cells were transduced with the retroviral vector SAX to express both neomycin-resistance and human adenosine deaminase genes. These cells were expanded in culture and selected for expression of neomycin resistance with G418. The gene insertion, selection, and culture expansion did not alter antigen specificity or growth characteristics of the T cells in vitro. To determine if cultured T cells might be used for gene therapy, their persistence and continued expression of the introduced genes was evaluated in nude mice transplanted with the SAX-transduced T cells. G418-resistant cells could be readily recovered from the spleens of recipients of transduced T cells for several months. In addition, recovered cells continued to produce human adenosine deaminase. Based on these observations, we studied cultured human tumor-infiltrating lymphocytes as a candidate cell for a trial of gene transfer in man. Exponential cultures of interleukin-2-stimulated tumor-infiltrating lymphocytes were efficiently transduced with the neomycin-resistance gene using the retroviral vector N2. Gene insertion and subsequent G418 selection did not substantially alter the growth characteristics, interleukin 2 dependence, membrane phenotype, or cytotoxicity profile of the transduced T cells. These studies provided a portion of the experimental evidence supporting the feasibility of the presently ongoing clinical trials of lymphocyte gene therapy in cancer as well as in patients with adenosine deaminase deficiency.
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PMID:Lymphocytes as cellular vehicles for gene therapy in mouse and man. 201 35

Retroviral-mediated gene transfer of human adenosine deaminase (hADA) provides a model system for the development of somatic gene therapy as a therapy for diseases of bone marrow-derived cells. We have previously demonstrated that hADA can be observed in all hematopoietic lineages in a minority of mice transplanted with bone marrow cells infected with a simplified retroviral vector, ZipPGK-ADA. Here we report a majority of mice (six of eight) demonstrate expression of hADA in the peripheral blood at least 6 months after transplantation with bone marrow infected with this simplified retroviral vector, which contains no selectable marker. The failure to express hADA in two of eight mice was associated with the absence of the recombinant retroviral provirus in DNA prepared from bone marrow cells of these mice apparently due to failure to efficiently infect the reconstituting hematopoietic stem cell. In an effort to preselect bone marrow stem cells containing proviral integrations, we incorporated the selectable marker neo phosphotransferase (NEO) into a retroviral vector encoding hADA, N2/ZipPGK-ADATKNEO, and used G418 selection of infected bone marrow cells before transplantation. In contrast to the simplified retroviral vector, hADA expression in these recipients was short lived (less than 8 weeks), despite the continued presence of intact provirus in DNA prepared from bone marrow of these mice. To determine whether the preselection of bone marrow using G418 was responsible for the lack of sustained hADA expression, we repeated the infection with the N2/ZipPGK-ADATKNEO vector but omitted the G418 selection step. Again, the majority of recipient mice failed to express hADA long term, although the continued presence of provirus in DNA prepared from peripheral blood cell mononuclear cells was clearly demonstrated. Finally, we demonstrate clonal fluctuation of infected stem cells, and observe a temporal correlation between cessation of expression of hADA and the emergence of a dominant stem cell clone between 14 and 20 weeks posttransplantation in one recipient. These data suggest that inclusion of a second transcriptional unit that includes neo phosphotransferase sequences in this simplified vector is associated with decreased expression of the nonselectable ADA sequences.
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PMID:Retroviral gene transfer of human adenosine deaminase in murine hematopoietic cells: effect of selectable marker sequences on long-term expression. 207 69

Severe combined immunodeficiency (SCID) due to deficiency of the purine metabolic enzyme adenosine deaminase (ADA) is a fatal childhood immunodeficiency disease. Immune reconstitution by transplantation with HLA-identical bone marrow is the treatment of choice. For patients not candidates for bone marrow transplantation, we propose to attempt immune reconstitution by using infusions of autologous T lymphocytes expanded in tissue culture and genetically corrected by insertion of a normal ADA gene using retroviral-mediated gene transfer. The vector is LASN, in which the human ADA gene is promoted by the LTR while the NeoR gene is driven by the SV40 early gene promoter. The packaging line is PA317. The protocol is designed to have two parts. In Part 1, autologous gene-corrected T lymphocytes would be infused repeatedly in low numbers in order to build an immune repertoire of T cells and also to obtain information as to how long gene corrected T cells survive in vivo. In Part 2A, the gene-corrected T cells would be selected in G418 and/or 2'deoxyadenosine and reinfused into the patient at monthly intervals for approximately 6 months. The goals would be essentially the same as in Part 1. In Part 2B, the number of gene-corrected T cells would be escalated in half-log increments to the predicted therapeutic level (probably around 1 x 10(9)/kg). 1-3 x 10(9)/kg gene-corrected cells would be infused several times and the patients would be monitored in order to determine if significant clinical improvement has occurred.
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PMID:The ADA human gene therapy clinical protocol. 208 Nov 98

A high titer retroviral vector was used to transfer a human adenosine deaminase (h-ADA) cDNA into murine bone marrow cells in vitro. The h-ADA cDNA was linked to the retroviral promoter, and the vector also contained a neomycin phosphotransferase gene as a selectable marker. Infected marrow was transplanted into syngeneic W/Wv recipients, and h-ADA expression was monitored for 5.5 months. Several weeks after transplantation, h-ADA was detected in the erythrocytes of all nine recipients, eight of which expressed levels equal to the endogenous enzyme. This level of expression persisted in two of six surviving mice, while expression in three others stabilized at lower, but readily detectable, levels. Only one mouse had no detectable h-ADA after 5.5 months. Vector DNA sequences with common integration sites were found in hematopoietic and lymphoid tissues of the mice at 5.5 months, providing evidence that hematopoietic stem cells had been infected. Furthermore, all mice transplanted with marrow that had been selected in G418 before infusion had multiple vector copies per genome. While this category included the two highest h-ADA expressors, it also included the negative mouse. Thus, multiple copies of the vector were not sufficient to guarantee long-term h-ADA expression. Mice were monitored for "helper virus" infections with an assay designed to detect a wide range of replication-competent retroviruses, including those endogenous to the mouse genome. No helper virus was detected in the two highest h-ADA expressors, ruling out helper-assisted vector spread as a cause of the high h-ADA expression. These results help provide a foundation for the development of somatic gene therapy techniques to be used in the treatment of human disease.
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PMID:Expression of human adenosine deaminase in mice after transplantation of genetically-modified bone marrow. 232 23

Two recombinant retroviral vectors encoding the cDNA of the human adenosine deaminase (ADA; EC 3.5.4.4) gene and the bacterial neomycin resistance (Neo) gene have been used to transduce bone marrow cells obtained from four patients affected by the ADA-deficient variant of severe combined immunodeficiency. By utilizing the long-term marrow culture system, freshly isolated bone marrow cells were subjected to multiple infection cycles with cell-free supernatants containing high titers of viral vector and then maintained in long-term marrow culture in the absence of any overt selection pressure. By using this experimental protocol, about 30-40% of the hematopoietic progenitors were productively transduced with the viral vector, as judged by the appearance of G418-resistant colonies derived from granulocyte/macrophage and multipotent hematopoietic progenitor cells. The vector-encoded human ADA gene was expressed efficiently in both the myeloid and lymphoid progeny of the cultured bone marrow cells, reaching levels between 15% and 100% as compared to the levels of ADA in normal bone marrow cells. The efficiency of gene transfer and ADA production was proportional to the number of infection cycles. Furthermore, transduction of the ADA vectors into the bone marrow cells derived from an ADA-deficient patient restored the capacity of the cells to respond to phytohemagglutinin and interleukin 2.
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PMID:Retroviral vector-mediated high-efficiency expression of adenosine deaminase (ADA) in hematopoietic long-term cultures of ADA-deficient marrow cells. 254 45

By virtue of its immediate contact with the circulating blood, the endothelium provides an attractive target for retroviral vector transduction for the purpose of gene therapy. To see whether efficient gene transfer and expression was feasible, rabbit aortic endothelial cells were infected with three Moloney murine leukemia virus-derived retroviral vectors. Two of these vectors carry genes encoding products that are not secreted: N2, containing only the selectable marker gene neoR, and SAX, containing both neoR gene and an SV40-promoted adenosine deaminase (ADA) gene. The third vector, G2N, contains a secretory rat growth hormone (rGH) gene and an SV40-promoted neoR gene. Infection with all three vectors resulted in expression of the respective genes. A high level of human ADA expression was observed in infected endothelial cell populations both before and after selection in G418. G2N-infected rabbit aortic endothelial cells that were grown on a synthetic vascular graft continued to secrete rGH into the culture medium. These studies suggest that endothelial cells may serve as vehicles for the introduction in vivo of functioning recombinant genes.
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PMID:High-level recombinant gene expression in rabbit endothelial cells transduced by retroviral vectors. 291 35

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


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