DrugBank:EXPT01586 - FACTA Search

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Query: DrugBank:EXPT01586 (G418)
2,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leukemic cells of patients with acute myeloid leukemia have recently been shown to spontaneously produce autostimulatory IL-1 and IL-6. In order to investigate the effects of systemic production of these cytokines on normal hematopoietic cells, mice were engrafted with bone marrow cells infected with high-titer retroviral vectors carrying the murine IL-1 alpha or IL-6 genes and the neomycin phosphotransferase gene. Sustained expression of the introduced IL-1 alpha and IL-6 genes was documented by Northern-blot analysis of RNA from G418-resistant mast cells and T cells, derived from bone marrow and spleen, respectively, of successfully reconstituted mice 6-10 months after transplantation. A single mouse engrafted with IL-1 alpha-infected cells which presented with a dramatic neutrophilic granulocytosis (54-fold elevation in circulating neutrophils) was sacrificed for health concerns 2 months post-transplant. Modest changes in peripheral leukocyte counts (at most a 2-fold rise) were observed in all of the other mice, and they remained healthy throughout the observation period. The majority displayed increased hematopoietic activity in bone marrow and spleen, predominantly granulopoiesis, with moderate lymphoid hyperplasia seen in the spleens of mice constitutively expressing IL-1 alpha. These mouse models provide the opportunity to evaluate the potential of persistent IL-1 alpha and IL-6 expression to contribute to leukemogenic transformation.
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PMID:Leukocytosis in mice following long-term reconstitution with genetically-modified bone marrow cells constitutively expressing interleukin 1 alpha or interleukin 6. 189 48

An amphotropic retroviral vector containing the bacterial neomycin phosphotransferase gene (neo) was used to infect blast cells from patients with acute myeloblastic leukemia. The infected cells acquired a G418-resistant phenotype that was stable as measured in a clonogenic assay and in long-term suspension culture. Thus, gene transfer into stem cells was accomplished by this procedure. This approach for manipulating gene expression in blast stem cells provides a means to assess the roles of a variety of genes in self-renewal, differentiation, and leukemogenesis.
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PMID:Introduction of new genetic material into human myeloid leukemic blast stem cells by retroviral infection. 283 45

Uncontrolled proliferation of acute myeloid leukemia (AML) cells is an important step during leukemogenesis. However, little is known about the mechanisms leading to growth autonomy. Studies using immortalized murine hematopoietic cell lines have suggested that autocrine production of growth factors, or the constitutive activation of molecules in growth factor signalling pathways, are involved. We have established six spontaneous factor-independent cell lines from the human growth factor-dependent TF-1 cell line. The factor-independent cells showed no detectable growth factor activity. Immunoblotting analyses of tyrosine phosphorylation, Raf-1 and extracellular signal-regulated kinase 2 (ERK-2) showed a similar pattern in all the cell lines including TF-1 cells. Furthermore, somatic-cell hybrids between TF-1 and the factor-independent cells grew in absence of growth factor. Taken together this data demonstrates that the factor independence in this system is dominant and suggests that the molecular event is located either downstream of the Raf-1 and MAP kinases pathway or on an alternative pathway. Finally, the karyotype analysis of one factor-independent cell line TF-1i1 and TF-1H- (G418 resistant, HAT sensitive TF-1 cells) and their hybrids demonstrated an unstable derivative chromosome [der(19) t(19;?) (q13.1;?)] which seemed to correlate with the factor-independence capacity. This model may help in our understanding of autonomous proliferation by human myeloid leukemias.
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PMID:Characterization of spontaneous factor-independent cell lines derived from the human leukemic cell line TF-1: a dominant event. 805 74

To study minimal residual disease (MRD) in leukemia, we transferred the Escherichia coli genes encoding beta-galactosidase (lacZ) and neomycin resistance (neo(r)) into the subline LT12 of the Brown Norway rat acute myelocytic leukemia (BNML), employing the retroviral BAG vector. In this way leukemic cells were genetically marked. Ten independent cell lines were characterized during in vitro growth as well as during two subsequent in vivo passages for expression of neo(r) for which the neomycin analogue G418 was used, and for lacZ expression for which the substrate 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside (X-gal) was used. Out of 10 lines, four revealed permanent high expression of lacZ in all cells. In four other lines greatly varying lacZ expression between the individual cells from these lines was observed. In the remaining two lines lacZ expression was gradually lost. In contrast, neo(r) expression was gradually lost in eight out of the 10 lines, particularly rapidly during in vivo passaging. In the remaining two lines neo(r) expression was retained. The genetic modification did not alter the in vitro leukemogenicity of the cells. Long term in vivo expression of neo(r) and lacZ was followed in two selected lines up to 12 subsequent passages, i.e. one from the group of homogeneous high lacZ expression and one from the group of heterogeneous lacZ expression. In both lines lacZ expression was retained whereas neo(r) expression was rapidly lost after the third passage. The feasibility of using genetically marked leukemic cells for studies of minimal residual disease (MRD) was explored by injecting rats with leukemic cells, treating them with chemotherapy at full blown leukemia development to reduce the tumor load, mimicking the induction of a state of MRD and studying lacZ expression at relapse. LacZ expression was evident in 100% of the cells whereas neo(r) expression was lost in a considerable fraction. These results indicate that the viral vector BAG can be used to mark leukemia cells genetically although a selection of clones with the desired stability of long-term expression is required.
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PMID:Retrovirus-mediated transfer and expression of marker genes in the BN rat acute myelocytic leukemia model for the study of minimal residual disease (MRD). 841 72

To evaluate whether marrow contributes to relapse after autologous bone marrow transplantation (AuBMT) for acute leukemia, transplanted marrow was marked with the G1N retroviral vector (Genetic Therapy Inc.) containing the neomycin phosphotransferase gene (neo). Between April 1992 and August 1993, 4 patients were transplanted for acute myeloid leukemia (AML) in second complete remission (CR) and 1 patient for acute lymphoid leukemia in first CR. An average of 12.4% (range 5-19%) of transplanted marrow mononuclear cells were exposed to G1N vector for 4 hr. In the vector-treated portion of the marrow, 4.9% of GM-CFU and 3.6% of erythroid burst-forming units (BFU-E) were resistant to G418 in vitro. In the 5 patients, the polymerase chain reaction (PCR) detected the neo sequence on only two occasions after AuBMT. Of 4 patients surviving 1 year after transplantation, only 1 had evidence of gene marked cells by PCR. Two AML patients have relapsed, one of whom had evidence of neo sequences in the bone marrow at day 100 but not at relapse 11 months after AuBMT. The second patient relapsed 18 months after AuBMT but never had PCR evidence of neo sequences before or after relapse. Our results indicate vector-transduced autologous bone marrow from heavily pretreated adults with acute leukemia mark with low efficiency, although vector sequences have been detected in bone marrow and peripheral blood up to 1 year after transplant. Of the 2 relapsed patients, no evidence of vector-marked leukemic blasts have been detected.
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PMID:Retroviral gene transfer in autologous bone marrow transplantation for adult acute leukemia. 881 19

This study was aimed to construct the CD14 eukaryotic expression vector, establish the transgeneic CD14 positive cell line in order to facilitate the establishment of a mouse model of antibody targeting therapy for human acute monocytic leukemia (AML-M(5)). Total RNA extracted from peripheral blood mononuclear cells was treated with RNAase-free DNAase, the human CD14 gene was cloned and sequenced through the RT-PCR and T-A clone techniques. Eukaryotic expressional vector pcDNA3.1(+)/CD14 was constructed by cleaving with double restriction endonuleases and ligating with T4 ligase. A murine melanoma cell line B16 was transfected with the pcDNA3.1(+)/CD14 recombinant with Superfect transfection reagent. Positive clones were selected by G418 and the expression of human CD14 on the transfectant was confirmed by flow cytometry (FCM). The results indicated that the sequence of the human CD14 cDNA cloned was exact to be same as the one from GenBank database. The recombinant pcDNA3.1(+)/CD14 was identified with double-enzyme cleaving. The expression of the human CD14 on the transfectant (B16/CD14) was confirmed by FCM. In conclusion, the murine cell line B16/CD14 fransfected with human CD14 gene has been established which can be used for the study of human AML-M(5) antibody targeting therapy with mouse model.
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PMID:[Establishment of murine cell line transfected with human CD14 gene]. 1663 22

Interferon regulatory factor (IRF) 1 and its functional antagonist IRF2 were originally discovered as transcription factors that regulate the interferon-beta gene. Control of cell growth has led to the definition of IRF1 as a tumour suppressor gene and IRF2 as an oncogene. Clinically, approximately 70% of cases of acute myeloid leukaemia demonstrate dysregulated expression of IRF1 and/or IRF2. Our previous studies have shown that human leukaemic TF-1 cells exhibit abnormally high expression of both IRF1 and IRF2, the latter acting to abrogate IRF1 tumour suppression, making these cells ideal for analysis of down-regulation of IRF2 expression. A novel G418 screening protocol was developed and used for identifying effective siRNA that targets IRF2 (siIRF2). Using optimized siIRF2 in leukaemic TF-1 cells, IRF2 was down-regulated by approximately 70% at both mRNA and protein levels. Phenotypically, this resulted in growth inhibition associated with G2/M arrest as well as induction of polyploidy, differentiation and apoptosis. In contrast to these results, siIRF2 targeting did not affect normal haematopoietic stem/progenitor cell growth. These results indicate the potential utility of IRF2 inhibition as a therapeutic approach to cancer.
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PMID:siRNA targeting the IRF2 transcription factor inhibits leukaemic cell growth. 1857 64