sdz-psc-833 and bisantrene

sdz-psc-833 has been researched along with bisantrene* in 1 studies

Other Studies

1 other study(ies) available for sdz-psc-833 and bisantrene

Article	Year
Complete restoration of glucocerebrosidase deficiency in Gaucher fibroblasts using a bicistronic MDR retrovirus and a new selection strategy. Human gene therapy, 1996, Nov-10, Volume: 7, Issue:17 Retrovirus-mediated gene transfer is currently the most common method for the application of genetic therapy to cancer and many inherited and acquired disorders. Here we report the generation of an amphotropic producer cell line (CA2) that synthesizes viral particles carrying a bicistronic cassette in which the selectable MDR1 cDNA encoding P-glycoprotein (P-gp) a multidrug efflux pump, and the human glucocerebrosidase (GC) gene are transcriptionally fused. Transduction of human Gaucher fibroblasts with this recombinant virus allowed coordinate expression of P-gp and GC. Treatment of the transduced fibroblasts with various cytotoxic substrates of P-gp selected for cells with increased expression of GC, which paralleled the stringency of drug selection. Thus, selection of the genetically modified Gaucher fibroblasts in 1 microgram/ml colchicine raised their GC activity levels from nearly undetectable to those present in WI-38 normal human fibroblasts, correcting the enzyme deficiency present in Gaucher cells. Moreover, by simultaneously inhibiting the P-gp pump, it was possible to use much lower concentrations of colchicine to select for high-level expression of MDR1 and GC. Thus, selection with colchicine at 5 ng/ml in combination with the P-gp inhibitors verapamil or PSC 833 produced a complete correction of the GC deficiency in the CA2-transduced fibroblasts. These combination regimens, already in clinical use for the treatment of multidrug-resistant malignancies, may prove useful in gene therapy trials when utilized for high level selection of a nonselectable gene such as glucocerebrosidase when transcriptionally fused to the MDR1 gene. Topics: Animals; Anthracenes; ATP Binding Cassette Transporter, Subfamily B, Member 1; Blotting, Northern; Blotting, Western; Cells, Cultured; Colchicine; Cyclosporins; DNA, Complementary; Doxorubicin; Drug Resistance, Multiple; Etoposide; Fibroblasts; Gaucher Disease; Gene Expression Regulation; Genetic Therapy; Genetic Vectors; Glucosylceramidase; Humans; Mice; Mutagenesis, Insertional; Retroviridae; Transfection; Verapamil	1996

Article

Year

Complete restoration of glucocerebrosidase deficiency in Gaucher fibroblasts using a bicistronic MDR retrovirus and a new selection strategy.

Human gene therapy, 1996, Nov-10, Volume: 7, Issue:17

Retrovirus-mediated gene transfer is currently the most common method for the application of genetic therapy to cancer and many inherited and acquired disorders. Here we report the generation of an amphotropic producer cell line (CA2) that synthesizes viral particles carrying a bicistronic cassette in which the selectable MDR1 cDNA encoding P-glycoprotein (P-gp) a multidrug efflux pump, and the human glucocerebrosidase (GC) gene are transcriptionally fused. Transduction of human Gaucher fibroblasts with this recombinant virus allowed coordinate expression of P-gp and GC. Treatment of the transduced fibroblasts with various cytotoxic substrates of P-gp selected for cells with increased expression of GC, which paralleled the stringency of drug selection. Thus, selection of the genetically modified Gaucher fibroblasts in 1 microgram/ml colchicine raised their GC activity levels from nearly undetectable to those present in WI-38 normal human fibroblasts, correcting the enzyme deficiency present in Gaucher cells. Moreover, by simultaneously inhibiting the P-gp pump, it was possible to use much lower concentrations of colchicine to select for high-level expression of MDR1 and GC. Thus, selection with colchicine at 5 ng/ml in combination with the P-gp inhibitors verapamil or PSC 833 produced a complete correction of the GC deficiency in the CA2-transduced fibroblasts. These combination regimens, already in clinical use for the treatment of multidrug-resistant malignancies, may prove useful in gene therapy trials when utilized for high level selection of a nonselectable gene such as glucocerebrosidase when transcriptionally fused to the MDR1 gene.

Topics: Animals; Anthracenes; ATP Binding Cassette Transporter, Subfamily B, Member 1; Blotting, Northern; Blotting, Western; Cells, Cultured; Colchicine; Cyclosporins; DNA, Complementary; Doxorubicin; Drug Resistance, Multiple; Etoposide; Fibroblasts; Gaucher Disease; Gene Expression Regulation; Genetic Therapy; Genetic Vectors; Glucosylceramidase; Humans; Mice; Mutagenesis, Insertional; Retroviridae; Transfection; Verapamil

1996