Browsing by keyword "*Transfection"
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Aerosol and lobar administration of a recombinant adenovirus to individuals with cystic fibrosis. II. Transfection efficiency in airway epitheliumA phase I clinical trial was conducted in which recombinant adenovirus containing the cystic fibrosis trans-membrane regulator (CFTR) (Ad2/CFTR) was administered by bronchoscopic instillation or aerosolization to the lungs of cystic fibrosis (CF) patients. In this paper, we evaluate the efficiency of Ad2/CFTR-mediated transduction of bronchial airway cells. The ability of an Ad2/CFTR vector to transduce airway cells was first evaluated in patients to whom the vector was administered by bronchoscopic instillation. Cells at the administration site were collected 2 days after treatment by bronchoscopic brushing. Ad2-specific CFTR DNA was detected in four of five individuals by PCR, and Ad2-specific CFTR RNA was detected in three of five individuals by RT-PCR. Ad2/CFTR-mediated transduction of airway epithelial cells was then determined in CF individuals receiving this vector by aerosol inhalation. Ad2-specific CFTR DNA was detected in 13 of 13 individuals 2 days after aerosolization, and in 3 of 5 individuals 7 days after aerosolization. Ad2-specific RNA was detected in 4 of 13 individuals on day 2, but was not detected in the 5 individuals tested on day 7. The percentage of airway epithelial cells containing nuclear-localized vector DNA was < or =2.4% as determined by fluorescence in situ hybridization (FISH). However, in some cases, a high percentage of nonepithelial mononuclear cells or squamous metaplastic epithelial cells was infected with the adenoviral vector. In conclusion, aerosol administration is a feasible means to distribute adenoviral vectors throughout the conducting airways, but improvements in adenovirus-mediated transduction of airway epithelial cells are necessary before gene therapy for CF will be effective.
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Insulin regulation of hexose transport in mouse 3T3-L1 cells expressing the human HepG2 glucose transporterComplementary DNA encoding a HepG2 cell-facilitated glucose transporter (GLUT1) was subcloned into a metal-inducible, mammalian expression vector, pLEN. Mouse 3T3-L1 fibroblasts transfected with this new construct, pLENGT, exhibited zinc-inducible expression of human glucose transporter mRNA, protein, and glucose transport activity, before and after differentiation into adipocytes. Both mouse host GLUT1 and expressed human GLUT1 proteins distributed about equally between 3T3-L1 adipocyte plasma membranes and low density microsomal membranes, while host skeletal muscle/adipocyte-type glucose transporter (GLUT4) was concentrated in the latter fraction. Mouse GLUT1 and GLUT4 proteins and the constitutively expressed human GLUT1 protein in pLENGT adipocytes were all redistributed from low density microsomal membrane to plasma membrane fractions in response to insulin. Insulin stimulated 2-deoxyglucose uptake in untransfected fibroblasts about 2-fold, while untransfected adipocytes displayed a 14-fold increase in deoxyglucose uptake in response to insulin. Both the expression of human GLUT1 protein and basal 2-deoxyglucose uptake by 75 microM zinc-treated pLENGT fibroblasts and adipocytes were increased approximately 3-fold over untransfected cells. In such pLENGT fibroblasts expressing human GLUT1 protein, however, the absolute values for insulin-stimulated increases in sugar uptake were no different than in control fibroblasts. As was observed in pLENGT fibroblasts, the increased basal sugar uptake by pLENGT adipocytes was additive with the insulin-stimulated increase in the rate of sugar uptake and, therefore, the -fold stimulation by insulin was markedly reduced. These data indicate that: 1) the membrane distributions of a glucose transporter protein, which is not responsive to insulin in HepG2 cells, and both mouse GLUT1 and GLUT4 glucose transporter isoforms are regulated by insulin in mouse 3T3-L1 adipocytes, and 2) the expressed human GLUT1 appears to contribute significantly to the rate of basal uptake but not to the insulin-stimulated increase in 2-deoxyglucose uptake by 3T3-L1 fibroblasts and adipocytes.
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The length of homology required for gene targeting in embryonic stem cellsHomologous recombination has been used to introduce site-specific mutations into murine embryonic stem (ES) cells with both insertion and replacement vectors. In this study, we compared the frequency of gene targeting with various lengths of homology and found a dramatic increase in targeting with an increase in homology from 1.3 to 6.8 kb. We examined in detail the relationship between the length of homology and the gene-targeting frequency for replacement vectors and found that a critical length of homology is needed for targeting. Adding greater lengths of homology to this critical length has less of an effect on the targeting frequency. We also analyzed the lengths of homology necessary on both arms of the vector for gene replacement events and found that 472 bp of homology is used as efficiently as 1.2 kb in the formation and resolution of crossover junctions.
