Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT01586 (G418)
 2,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primitive hematopoietic progenitor cells (HPCs) are potential targets for treatment of numerous hematopoietic diseases using retroviral-mediated gene transfer (RMGT). To achieve high efficiency of gene transfer into primitive HPCs, a delicate balance between cellular activation and proliferation and maintenance of hematopoietic potential must be established. We have demonstrated that a subpopulation of human bone marrow (BM) CD34(+) cells, highly enriched for primitive HPCs, persists in culture in a mitotically quiescent state due to their cytokine-nonresponsive (CNR) nature, a characteristic that may prevent efficient RMGT of these cells. To evaluate and possibly circumvent this, we designed a two-step transduction protocol using neoR-containing vectors coupled with flow cytometric cell sorting to isolate and examine transduction efficiency in different fractions of cultured CD34(+) cells. BM CD34(+) cells stained on day 0 (d0) with the membrane dye PKH2 were prestimulated for 24 hours with stem cell factor (SCF), interleukin-3 (IL-3), and IL-6, and then transduced on fibronectin with the retroviral vector LNL6 on d1. On d5, half of the cultured cells were transduced with the retroviral vector G1Na and sorted on d6 into cytokine-responsive (d6 CR) cells (detected via their loss of PKH2 fluorescence relative to d0 sample) and d6 CNR cells that had not divided since d0. The other half of the cultured cells were first sorted on d5 into d5 CR and d5 CNR cells and then infected separately with G1Na. Both sets of d5 and d6 CR and CNR cells were cultured in secondary long-term cultures (LTCs) and assayed weekly for transduced progenitor cells. Significantly higher numbers of G418-resistant colonies were produced in cultures initiated with d5 and d6 CNR cells compared with respective CR fractions (P < .05). At week 2, transduction efficiency was comparable between d5 and d6 transduced CR and CNR cells (P > .05). However, at weeks 3 and 4, d5 and d6 CNR fractions generated significantly higher numbers of neoR progenitor cells relative to the respective CR fractions (P < .05), while no difference in transduction efficiency between d5 and d6 CNR cells could be demonstrated. Polymerase chain reaction (PCR) analysis of the origin of transduced neoR gene in clonogenic cells demonstrated that mature progenitors (CR fractions) contained predominantly LNL6 sequences, while more primitive progenitor cells (CNR fractions) were transduced with G1Na. These results demonstrate that prolonged stimulation of primitive HPCs is essential for achieving efficient RMGT into cells capable of sustaining long-term in vitro hematopoiesis. These findings may have significant implications for the development of clinical gene therapy protocols.
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PMID:Delayed targeting of cytokine-nonresponsive human bone marrow CD34(+) cells with retrovirus-mediated gene transfer enhances transduction efficiency and long-term expression of transduced genes. 957 6

Lactate and ammonia are the two major waste products formed during mammalian cell growth. Accumulation of these side products can have a negative effect on cell growth, and has drawn recent attention because of their inhibitory effects on the specific product synthesis rate. Our aim is to reduce lactate formation in the cell culture by genetically manipulating of the pathway of lactate synthesis with an aim to achieve high monoclonal antibody production. We have partially disrupted the LDH-A gene by homologous recombination in hybridoma cells (ATCC-CRL-1606). The cells that received the newly introduced DNA were selected by G418, and an LDH-deficient cell was identified by a screening method based on medium color changing in 96-well plates. A variant cell, LDH-neo21, was identified through this screening method and was characterized. The specific productivity of lactate by LDH-neo21 cells was 50% lower than that of parental cells. Intracellular LDH enzyme activity was significantly reduced. The cell growth was improved both in terms of cell density and cell viability. Total cell density potentially reached 5 x 10(6) cells/mL while the parental hybridoma cells had a cell density of 3.5 x 10(6) cells/mL, which represented a 30% increase. The antibody production of LDH-neo21 cells was threefold greater than that of parental cells during 5-day batch culture. Polymerase chain reaction (PCR) results showed that at least one copy of the LDH-A gene was disrupted in the LDH-neo21 cells. The variant of the hybridoma cell exhibited a significant advantage of reduced lactate formation in the cell culture with a high concentration of glucose, which led to a higher production of monoclonal antibody. 2001 John Wiley & Sons, Inc.
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PMID:Engineering of a mammalian cell line for reduction of lactate formation and high monoclonal antibody production. 1108 94

The introduction of chromosome 10p into human glioblastoma or prostate cancer cells has been demonstrated to suppress their malignant phenotype, suggesting the presence of glioma or prostate tumor suppressor genes on 10p. As a resource for the fine mapping of these genes, a series of human-rodent hybrid cell lines containing single transferable fragments (STFs) of 10p were constructed. Normal chromosome 10 tagged with a neomycin-resistance gene on its short arm was fragmented by gamma-irradiation of 5-10krad, transferred into mouse L cells or Chinese hamster ovary cells by microcell-mediated chromosome transfer (MMCT), and then selected against G418. Thirty-three independent rodent-human hybrids carrying various-sized STFs were obtained. Polymerase chain reaction (PCR)-based genotyping revealed that these STFs contained the whole, or portions, of a 43-cM region on 10p14-pter and could be defined by 19 sequence-tagged-site (STS) markers. Using this panel of hybrids as donors for further MMCT, genes on the refined fragments could be transferred into other cells. This hybrid panel would therefore be a useful resource for the fine mapping of the genes on 10p14-pter to segments of about 2.4 cM by functional complementation.
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PMID:Construction of human-rodent hybrid cells containing single transferable fragments of human chromosome 10p. 1118 48

Aminoacyl-tRNA synthetases corresponding to each of the 20 amino acids are essential proteins for nearly all cells. The tryptophan-specific enzyme in the cytoplasm of Saccharomyces cerevisiae (ScWRS) is a 49-kDa protein encoded by the WRS1 gene and required for survival. The human enzyme (HsWRS) is a 54-kDa protein with 46% sequence identity to ScWRS. HsWRS has a kinase domain in the N-terminal region and a serine phosphorylation site near the C-terminus not present in the yeast enzyme. To determine if the gene encoding the human protein could functionally complement the WRS1 gene, HsWRS cDNA was cloned in the expression vectors pVT100U and pYES then transformed into a diploid yeast where one copy of WRS1 had been replaced with a G418(R) gene. Tetrads derived from these transformants were dissected and spores germinated on media selecting for the presence of the plasmids. Haploid colonies were then tested for resistance to G418. G418(R) cells were unable to grow in the presence of 5-fluoroorotic acid, indicating their dependence on the plasmids for viability. Polymerase chain reaction analysis of these cells confirmed the presence of the HsWRS gene and the absence of WRS1. Growth rates of cells expressing HsWRS are essentially identical to the parent. This demonstrates that the human enzyme can function in yeast and effectively replace the ScWRS protein in spite of the presence of two unique functions and a >50% overall difference in amino acid sequence.
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PMID:Human tryptophanyl-tRNA synthetase can efficiently complement the Saccharoymces cerevisiae homologue, Wrs1P. 1242 61

The multiple drug resistance protein (MDR1) is frequently overexpressed in human glioma. The aim of this study is to clone the MDR1 promoter from C6/ADR, construct the double suicide genes expressive vector controlled by MDR1 promoter, and explore its targeted expression in C6/ADR cells. MDR1 promoter from C6/ADR genomic DNA, which was linked with T vector, was amplified by using Polymerase chain reaction (PCR). After cut by NdeI and HindIII, MDR1 promoter was cloned into pcDNA3-TK (thymidine kinase) plasmid. The cytosine deaminase (CD) gene from pcDNA3-CD-TK plasmid was directly cloned into the above vector to construct pcDNA3-MDR1-promoter-CD-TK vector. Then this vector was transfected into C6 and C6/ADR cells respectively by liposome. After selection by G418, the tumor cell lines were stably established. Then these cell lines were examined through PCR and RT-PCR to respectively detect the integration and expression of TK and CD genes. The results showed the length and sequence of MDR1 promoter amplified by PCR were confirmed by DNA sequencing. The pcDNA3-MDR1-promoter-CD-TK expression vectors were constructed successfully. PCR indicated the double suicide genes were integrated into C6 and C6/ADR cells. RT-PCR revealed that CD and TK genes expressed in C6/ADR/CD-TK cells, whereas not in C6/CD-TK cells. In conclusions, construction of expressive vector containing double suicide genes controlled by MDR1 promoter with targeted expression in C6/ADR will provide a sound basis for targeted gene therapy for multidrug resistance (MDR) glioma.
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PMID:Construction of double suicide genes system controlled by MDR1 promoter with targeted expression in drug-resistant glioma cells. 1759 53

The aim of this study was to develop a method for the in vitro separation and culture of Arbas Cashmere goat bone marrow stromal cells (gBMSCs). Arbas Cashmere gBMSCs were isolated and cultured in vitro, and cell surface markers were identified immunohistochemically. The gBMSCs were differentiated into neurocytes and osteoblasts, and the expression of neuron-specific enolase and osteocalcin was identified by immunohistochemistry. The gBMSCs and goat fetal fibroblast cells (gFFCs) were compared for transient transfection efficiency and fluorescent colony-forming efficiency with Arbas Cashmere gFFCs as a control. pDsRed2-1 encodes DsRed2, a variant of the Discosoma sp. red fluorescent protein (DsRed). In addition, the coding sequence for DsRed2 contains a series of silent base-pair changes for higher expression in mammalian cells. Of the gBMSCs-pDsRed2-1, one fraction was tested for pluripotency, whereas the other fraction was manipulated using somatic cell nuclear transfer, and the in vitro growth status of transgenic embryos derived from gBMSCs-pDsRed2-1 and gFFCs-pDsRed2-1 was compared. The findings showed that gBMSCs were isolated and amplified to express CD29, CD44, and CD90 through adherent culture, with no marked signs of aging after multiple passages. Expression of neuron-specific enolase and osteocalcin by gBMSCs and gBMSCs-pDsRed2-1 was strongly induced by neuronal and osteogenic differentiation, whereas the integrated exogenous genes did not influence pluripotency (P > 0.05). The transient transfection efficiencies of gBMSCs and gFFCs after 48 hours were not significantly different; however, the fluorescent colony-forming efficiency of gBMSCs-pDsRed2-1 after G418 screening was approximately 13% higher than that of gFFCs-pDsRed2-1. The convergence and cleavage rates of cloned embryos derived from gBMSCs-pDsRed2-1 were higher than those derived from gFFCs-pDsRed2-1, whereas their eight-cell and blastocyst rates were similar. The red fluorescent protein expression levels were higher in transgenic embryos derived from gBMSCs-pDsRed2-1 compared with those derived from gFFCs-pDsRed2-1 (48.8% vs. 31.1%, respectively) (P < 0.01). Real-time quantitative Polymerase Chain Reaction analysis showed that DsRed2-1 messenger RNA expression of cloned embryos derived from gBMSCs was 2.24 greater than that of embryos derived from gFFCs-pDsRed2-1 (P < 0.01). Similarly, Western blot analysis showed that DsRed2 protein expression of cloned embryos derived from gBMSCs-pDsRed2-1 was 1.29 greater than that of embryos derived from gFFCs-pDsRed2-1 (P < 0.01). In this study, gBMSCs were also used for somatic cell nuclear transfer and shown to provide effective nuclear donor cells for breeding new genetically modified varieties of livestock.
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PMID:The effect of Arbas Cashmere goat bone marrow stromal cells on production of transgenic cloned embryos. 2467 7