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Removal of Inhibitory Substances with Recombinant Fibronectin-CH-296 Plates Enhances the Retroviral Transduction Efficiency of CD34+CD38- Bone Marrow Cells
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2001
Year
Cell TherapyEngineeringCoating PlateSynthetic VirologyImmunologyMolecular BiologyCell Replacement TherapyRecombinant Fibronectin-ch-296 PlatesGene DeliveryRetroviral Transduction EfficiencyRetroviral Gene TransductionHuman Cd34Human RetrovirusCell TransplantationInhibitory SubstancesNeurovirologyVirologyCell EngineeringCell BiologyAntiviral ResponseGenetic EngineeringSynthetic BiologyGene VectorMedicineGenome Editing
In retroviral gene transduction, the efficiency of viral infection was reduced by the proteoglycans and some other materials secreted by the producer lines. In order to remove these inhibitors we have developed the rFN-CH-296-facilitated protocol. Because the rFN-CH-296 molecule has strong ability to bind a retroviral vector, rFN-CH-296 bound plates are utilized to wash out the unbound putative inhibitors present in a virus supernatant. The gene transduction efficiencies of human CD34(+)CD38(-) BMCs with a GALV-pseudotyped vector and the rFN-CH-296-facilitated protocol were compared with the protocol without a coating plate with CH-296, the mean gene transduction efficiencies being found to be 95.5 and 71.1%, respectively.