AI Article Synopsis
- The K8/JTS-1-mediated transfection technique was used to create a protocol for effectively delivering plasmid DNA to eye cells, achieving transfection efficiencies of 11% in retinal epithelial cells and 19% in kidney cells.
- RPE D407 cells showed lower viability post-transfection compared to 293 cells, but in vivo studies demonstrated successful gene expression in retinal cells of RCS rats after subretinal injections.
- The technique was further validated by showing that injections of a specific plasmid delayed photoreceptor cell degeneration in dystrophic RCS rats, suggesting its potential for treating retinal diseases.
Article Abstract
Based on the K8/JTS-1-mediated transfection technique, we developed an in vivo protocol for an efficient transfer of plasmid DNA to ocular cells. As determined with condensed plasmids containing reporter genes for either beta-galactosidase (pcDNA-lacZ) or enhanced green fluorescent protein (pREP-EGFP), the immortalized human retinal epithelial cells RPE D407 and human embryonic kidney 293 cells can be transfected with typical efficiencies of 11 and 19%, respectively. Unlike 293 cells, RPE D407 cells had a reduced viability on transfection with both plasmids. In vivo, subretinal injections of DNA-K8/JTS-1 complexes revealed reporter gene expression in choroidal and RPE cells of normal pink-eyed Royal College of Surgeons (RCS) rats. The validity of this transfection technique in terms of retinal cell survival in RCS rats was then examined by using pREP-hFGF2 plasmid, which encodes the human basic fibroblast growth factor isoforms (hFGF2). Subretinal injection of pREP-hFGF2-K8/JTS-1 complexes into 3-week-old dystrophic RCS rat eyes reveals a delayed photoreceptor cell degeneration 60 days postinjection. In this case, the average analyzed field points with delayed cell dystrophy represent 14 to 17% of the retinal surface as compared with 2.6 and 4% in pREP5beta and vehicle-injected eyes, respectively. Peptide-mediated in oculo transfection thus appears to be a promising technique for the treatment of retinal cell and photoreceptor degenerations.
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| http://dx.doi.org/10.1089/10430340050129495 | DOI Listing |
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