PURPOSE: One of the drawbacks of polycationic and cationic liposomal gene transfer is its sensitivity to serum. Gene therapy requires the transfectant-DNA complex to be resistant to serum as well as blood. Since Ca2+ has proved to be an efficient cofactor of polycationic gene transfer, we decided to investigate its effects on transfection in the presence of serum. METHODS: We studied transgene expression of luciferase gene (pCMV Luc) on ECV 304 human endothelial cells using H1 histone and DOSPER as transfectants in the presence of 0-100% fetal calf serum. RESULTS: H1-and DOSPER-mediated transfection was found to be inhibited by serum above the concentration of 10%. If 2 mM Ca2+ or 2 mM Ca2+/0.1 mM chloroquine was included in the culture medium which replace the transfection mixture and was left on the cells for 24 hours postincubation, the inhibiting effect of even 100% serum was overcome. CONCLUSIONS: A high serum level does not interfere with binding and uptake of H1- and DOSPER-DNA complexes, but inhibits subsequent steps such as endosomal escape. Ca2+ in the form of nascent calcium phosphate microprecipitates and other lysosomolytical agents facilitate endosomal/lysosomal release by their fusigenic and membranolytic activity.
PURPOSE: One of the drawbacks of polycationic and cationic liposomal gene transfer is its sensitivity to serum. Gene therapy requires the transfectant-DNA complex to be resistant to serum as well as blood. Since Ca2+ has proved to be an efficient cofactor of polycationic gene transfer, we decided to investigate its effects on transfection in the presence of serum. METHODS: We studied transgene expression of luciferase gene (pCMV Luc) on ECV 304 human endothelial cells using H1 histone and DOSPER as transfectants in the presence of 0-100% fetal calf serum. RESULTS: H1-and DOSPER-mediated transfection was found to be inhibited by serum above the concentration of 10%. If 2 mM Ca2+ or 2 mM Ca2+/0.1 mM chloroquine was included in the culture medium which replace the transfection mixture and was left on the cells for 24 hours postincubation, the inhibiting effect of even 100% serum was overcome. CONCLUSIONS: A high serum level does not interfere with binding and uptake of H1- and DOSPER-DNA complexes, but inhibits subsequent steps such as endosomal escape. Ca2+ in the form of nascent calcium phosphate microprecipitates and other lysosomolytical agents facilitate endosomal/lysosomal release by their fusigenic and membranolytic activity.
Authors: J G Lewis; K Y Lin; A Kothavale; W M Flanagan; M D Matteucci; R B DePrince; R A Mook; R W Hendren; R W Wagner Journal: Proc Natl Acad Sci U S A Date: 1996-04-16 Impact factor: 11.205
Authors: Danuta Balicki; Christopher D Putnam; Puthupparampil V Scaria; Ernest Beutler Journal: Proc Natl Acad Sci U S A Date: 2002-05-28 Impact factor: 11.205