Highly Efficient Gene Expression in Rabbit Synoviocytes Using EBV-Based Plasmid

BACKGROUND: Rheumatoid arthritis (RA) is an autoimmune disorder characterized by chronic synovial inflammation which leads to joint destruction. Gene therapy of RA targets the players of inflammation or articular destruction. However, viral vectors have safety problems and side effects, while non-viral vectors suffer from inefficient gene transfer and fast loss of gene expression. To overcome the limits of non-vial vectors, an EBV-based plasmid which is known to exert prolonged high level gene expression can be used. METHODS: pEBVGFP, pEBVIL-10, and pEBVvIL-10 were constructed by cloning GFP, IL-10, and vIL-10 genes into an EBV-based plasmid, respectively. The pGFP was used as a control plasmid. Each constructs were lipofected into HIG-82 rabbit synoviocytes. The expression of GFP was monitored by FACS and confocal microscopy. IL-10 and vIL-10 expressions were measured by ELISA. RESULTS: GFP expression 2 days after transfection was achieved in 33.2% of cells. GFP-expressing cells transfected with pGFP decreased rapidly from 4 days after transfection and disappeared completely by 11 days. Cells transfected with pEBVGFP began to decrease slowly from 4 days. But GFP expression was detected for over 35 days. In addition, HIG-82 cells transfected with pEBVIL-10 (44.6+/-1.5 ng/ml) or pEBVvIL-10 (51.0+/-5.7 ng/ml) secreted these cytokines at high levels. High level cytokine production by hygromycin selection was maintained at least for up to 26 days after transfection. CONCLUSION: These results suggest that the EBV-based plasmid has a potential to improve non-viral gene transfer system and may be applicable to treat RA without the drawbacks of viral vectors.

Lactoferrin as a gene delivery vehicle to hepatocytes

Using lactoferrin as the specific ligand, we developed a simplified method for preparation of molecular conjugate for gene delivery. Replacement of column chromatography and dialysis by one step centrifugal filtration (Centricon, cut off size : 30,000), resulted in the rapid purification of bovine lactoferrin/polylysine (bLf/pL) and human lactoferrin/polylysine (hLf/pL) conjugates and easy separation of unconjugated polylysine. The Lf/pL conjugates prepared by this method efficiently transferred the reporter genes, CAT and LacZ gene, to HeLa and hepatic cells. The bLf/pL and hLf/pL conjugates could transfer the reporter genes to various hepatocytes including primary mouse hepatocyte, Hepa 1-6, SK-Hep1 and Chang liver, but not to NIH 3T3 mouse fibroblast cells, indicating that the Lf/pL conjugates conferred hepatocyte-specific gene transfer. The bLf/pL and hLf/pL conjugates prepared in the present study exhibited higher transfection efficiencies for mouse and human hepatocytes than the commercially available transferrin/polylysine (Tf/pL) conjugate.