Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our previous study demonstrated the positive relationship between the gene introduction rate into hematopoietic cell lines by electroporation and the percentage of cells in S-phase. In the present study, granulocyte-macrophage progenitor cells (CFU-C) rich marrow cell fraction were cultured in suspension with IL-3, GM-CSF and G-CSF for 4 days. The number of CFU-C were increased three times after the culture, and 3H-thymidine suicide tests of cultured cells demonstrated that the proportion of CFU-C in S-phase was increased by two to four times. The efficiency of gene transfer into CFU-C with the plasmid pMoZtk (containing the beta-galactosidase gene) by electroporation was nearly doubled by culturing marrow cells with these growth factors. These findings confirm that the introduction rate of the gene into CFU-C by electroporation is more efficient in cell populations with a higher percentage of CFU-C in S-phase.
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PMID:Gene introduction into granulocyte-macrophage progenitor cells by electroporation: the relationship between introduction efficiency and the proportion of cells in S-phase. 152 64

Retroviral gene transfer efficiently delivers genes of interest stably into target cells, and expression cDNA cloning has been shown to be highly successful. Considering these two advantages, we now report a method by which one can identify genes stimulating cell growth through functional analysis. The first step requires the construction of a retroviral cDNA expression library and the optimization of transfection of vector DNA into virus packaging cells. The second step involves the cocultivation of target cells with libraries of retrovirus-producing cells, resulting in the amplification of target cells transduced with a gene(s) stimulating cell growth. Under standardized conditions of transfection, we detected an average of 4,000 independent clones per dish, among which expression of a retroviral beta-galactosidase gene at an abundance of 0.2% could be detected. Next, we demonstrated the augmentation of the sensitivity of the assay by retroviral infection and functional analysis. We did this by cocultivating factor-dependent (FD) cells with dishes of GP/E cells transfected with plasmids containing various molar ratios of pN2-IL3 DNA and retroviral library cDNA and by determining the highest dilution of pN2-IL3 which still resulted in the conversion of FD cells to factor independence. The retroviral interleukin-3 gene at an abundance as low as 0.001% could be detected. Indeed, we were able to detect from FD cells the development of factor-independent colonies with different phenotypes after retroviral transfer of cDNAs from an immortalized hemopoietic stem cell line. Thus, the combination of a standardized high-efficiency DNA transfection and retrovirus-mediated gene transfer should facilitate the identification of genes capable of conferring to target FD cells a detectable new function or phenotype. By scaling up the size of the experiment realistically during screening, the assay can detect cDNA at an abundance of lower than 0.0001%.
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PMID:High-efficiency identification of genes by functional analysis from a retroviral cDNA expression library. 805 34

Like interleukin 2 (IL-2), interferon gamma (IFN-gamma) is an early response gene in T cells and both are prototypical T helper cell type 1 (Th-1) lymphokines. Yet IL-2 and IFN-gamma production are independently regulated, as demonstrated by their differential expression in certain T cell subsets, suggesting that the regulatory elements in these two genes must differ. To explore this possibility, the 5' flank of the human IFN-gamma gene was analyzed. Expression of IFN-gamma promoter-driven beta-galactosidase reporter constructs containing 538 bp of 5' flank was similar to that by constructs driven by the IL-2 promoter in activated Jurkat T cells; expression nearly as great was observed with the construct containing only 108 bp of IFN-gamma 5' flank. These IFN-gamma promoter constructs faithfully mirrored expression of the endogenous gene, in that expression required activation both with ionomycin and PMA, was inhibited by cyclosporin A, and was not observed in U937 or THP-1 cells. The region between -108 and -40 bp in the IFN-gamma promoter was required for promoter function and contained two elements that are conserved across species. Deletion of 10 bp within either element reduced promoter function by 70%, whereas deletions in nonconserved portions of this region had little effect on promoter function. The distal conserved element (-96 to -80 bp) contained a consensus GATA motif and a potential regulatory motif found in the promoter regions of the GM-CSF and macrophage inflammatory protein (MIP) genes. Factors binding to this element, including GATA-3, were found in Jurkat nuclear extracts by electromobility shift assays and two of the three complexes observed were altered in response to activation. One or both of these motifs are present in the 5' flank of multiple, other lymphokine genes, including IL-3, IL-4, IL-5, and GM-CSF, but neither is present in the promoter of the IL-2 gene. The proximal conserved element (-73 to -48 bp) shares homology with the NFIL-2A element in the IL-2 promoter; these elements compete for binding of factors in Jurkat nuclear extracts, although the NFIL-2A element but not the IFN-gamma element binds Oct-1. Factors binding to this element in the IFN-gamma gene were present in extracts from resting and activated Jurkat T cells. However, by in vivo footprinting of intact cells, this element was protected from methylation only with activation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Two essential regulatory elements in the human interferon gamma promoter confer activation specific expression in T cells. 822 2

The c-Fes protein-tyrosine kinase exhibits strong expression in myeloid hematopoietic cells. Previous studies have shown that Fes induces differentiation in the chronic myelogenous leukemia-derived cell line K-562, suggesting that the Fes signal for differentiation is dominant to the Bcr-Abl signal for transformation in these cells. In addition, Fes has been shown to associate with and phosphorylate Bcr on NH2-terminal sequences retained within Bcr-Abl. To determine whether Fes interacts directly with Bcr-Abl, kinase-inactive Bcr-Abl was coexpressed with Fes in 293T cells, and phosphorylation was assessed by anti-phosphotyrosine immunoblotting. Bcr-Abl was strongly phosphorylated by Fes under these conditions, suggestive of direct interaction. Similarly, tyrosine phosphorylation of kinase-inactive Fes was observed after coexpression with active Bcr-Abl. To test for the interaction of Fes with Bcr-Abl under physiological conditions, wild-type and kinase-defective Fes were stably expressed in the cytokine-dependent myeloid leukemia cell line, DAGM. Expression of either form of Fes alone did not affect the proliferation or interleukin 3 dependence of these cells. The DAGM/Fes cells were then infected with Bcr-Abl retroviruses, and their rates of cytokine-independent outgrowth were compared. Fes dramatically suppressed Bcr-Abl-induced DAGM cell outgrowth relative to a cell line expressing beta-galactosidase as a negative control. This effect required Fes tyrosine kinase activity, because the kinase-inactive form of Fes did not affect Bcr-Abl-induced cell outgrowth. The phosphotyrosine content of both wild-type and kinase-inactive Fes was strongly enhanced after coexpression with Bcr-Abl in DAGM cells, similar to the 293T result. Phosphorylation of wild-type Fes correlated with stimulation of Fes tyrosine kinase activity in the presence of Bcr-Abl. These results show that Fes and Bcr-Abl interact in myeloid cells, leading to Fes activation and suppression of Bcr-Abl-induced conversion to cytokine independence.
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PMID:The c-Fes protein-tyrosine kinase suppresses cytokine-independent outgrowth of myeloid leukemia cells induced by Bcr-Abl. 1070 30

The hematopoietic stem cell has long been considered an ideal target for the introduction of therapeutic genes to treat human disorders such as Fanconi anemia (FA). Although recent progress in large animal models is encouraging, application to nonmalignant conditions is limited by the perceived necessity of myeloablative conditioning. We and others have shown that very low irradiation doses are sufficient to allow significant hematopoietic engraftment in murine hosts even after the introduction of xenogeneic genes. To determine the degree of engraftment of genetically modified cells attainable with very low irradiation doses in larger animals, we employed the rhesus macaque competitive repopulation model. Four animals underwent mobilization with stem cell factor (SCF) and granulocyte colony-stimulating factor (G-CSF) followed by apheresis. The apheresis product was enriched for the CD34-positive fraction by immunomagnetic selection and split equally for transduction with either G1FC26, a retroviral vector carrying the Fanconi anemia complementation group C gene, or PLII, a nonexpression control retroviral vector carrying both neomycin and beta-galactosidase gene sequences modified to prevent translation. Transductions were performed daily in the presence of fresh IL-3, IL-6, SCF, and Flt-3 ligand on fibronectin-coated plates over 96 h. Animals were conditioned with a single dose of either 100 (n = 2) or 200 (n = 2) cGy and received the combined products of transduction on the following day. None of the animals experienced clinically significant neutropenia nor required the use of central line placement, transfusional support with blood products, or intravenous antibiotics. Using real-time PCR, circulating levels of genetically modified cells as high as 1% were initially detected. Stable, albeit, significantly lower levels from both vector-transduced aliquots (<0.1%) persisted beyond 12 months posttransplant in all four animals. Although not sufficient to correct the phenotype in many human disorders, stable low-level engraftment by genetically modified cells following low-intensity conditioning may prove adequate in disorders such as FA due to the selective advantage conferred upon corrected cells.
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PMID:Persistent low-level engraftment of rhesus peripheral blood progenitor cells transduced with the fanconi anemia C gene after conditioning with low-dose irradiation. 1140 5

In mammals, methylation of DNA within regulatory sites and histone deacetylase recruitment in transcriptional repressing domains are involved in the loss of the expression of retroviral DNA or repeat arrays transferred in cells for therapeutic purposes. Various investigation results suggest that methylation/deacetylation events are modulated by extracellular and cytoplasmic signal transduction pathways closely involved in regulating cell differentiation. To analyse gene silencing mechanisms and assess if potential pharmacological treatment affects gene silencing kinetics we transduced U937 myelomonocytic cells with a bicistronic retroviral construct carrying the herpes simplex virus thymidine kinase (HSV-TK) and beta-galactosidase (Lac-Z) genes. This vector can be employed in vivo and in vitro to render transduced cell populations susceptible to ganciclovir (GCV). We verified the effect of the histone deacetylase inhibitor Trichostatin A (TSA) alone or combined with 5'-azacytidine (5'aza-C) on transcription downmodulation. Our results indicate that in our in vitro model TSA is able to reactivate transgene expression, more efficiently and with quicker kinetics (12-24h) than 5'aza-C (36-48 h). The effect is dose dependent (between 1 and 50 nM), with no relevant toxicity. Treatment with both drugs is synergistic in gene reactivation in terms of extension and persistence, with low toxicity and no relevant differentiating effects. The cells in which transgene expression has been reactivated undergo progressive silencing, but once weekly drug treatment can maintain high transgene expression levels for more than 90 days with no evidence of selection. The results obtained by treating U937 transduced clones with TSA and/or 5'aza-C together with IL-3, G-CSF or GM-CSF cytokines suggest that transduced U937 differentiation levels do not affect basal expression, but render these cells more responsive to reactivation by TSA or TSA plus 5'aza-C, but not to 5'aza-C alone. In conclusion, the results suggest that in vitro inhibition of histone deacetylase by TSA can interfere with gene silencing mechanisms affecting 5' Moloney murine leukaemia virus long terminal repeat (MoMuLV-LTR) driven transgene expression thus providing the rationale for TSA and/or 5'aza-C administration in animal models for the translation on gene therapy applications.
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PMID:Effect of trichostatin a and 5'-azacytidine on transgene reactivation in U937 transduced cells. 1277 May 23