PURPOSE: The purpose of this study was to evaluate protamine-mediated gene transfection by liposomes with a novel cationic cholesterol derivative (I) compared to those with DC-Chol or DOTMA (Lipofectin). METHOD: Plasmid pGL3 DNA was complexed to the cationic liposomes with the derivative (I), DC-Chol, or DOTMA in SFM101(Nissui) at room temperature for 15 min, and thereafter the complex was incubated with target cells (NIH3T3) for 4 h at 37 degrees C. The cells then were washed and cultured for another 40 h in the growth medium at 37 degrees C before luciferase assay. RESULTS: The transfection efficiency by the liposomes with the derivative (I) was much higher than that by the liposomes with DC-Chol or DOTMA. In addition, its transfection efficiency was enhanced greatly by the addition of protamine. Atomic force microscopy showed clearly how the size of the DNA-liposome complex was changed by protamine. Furthermore, fluorescence microscopic images showed that Cy5-labeled antisense DNAs were transferred quicker into the nucleus of the target cells by the liposomes with the derivative I in the presence of protamine. CONCLUSION: Although there exist several possible mechanisms, such as improved protection of DNA intracellularly by derivative (I), one possibility is that the DNA-protamine-liposome complex with the derivative (I) promoted gene transfection more significantly into the nucleus of the target cells using the nuclear localization signal of protamine.
PURPOSE: The purpose of this study was to evaluate protamine-mediated gene transfection by liposomes with a novel cationic cholesterol derivative (I) compared to those with DC-Chol or DOTMA (Lipofectin). METHOD: Plasmid pGL3 DNA was complexed to the cationic liposomes with the derivative (I), DC-Chol, or DOTMA in SFM101(Nissui) at room temperature for 15 min, and thereafter the complex was incubated with target cells (NIH3T3) for 4 h at 37 degrees C. The cells then were washed and cultured for another 40 h in the growth medium at 37 degrees C before luciferase assay. RESULTS: The transfection efficiency by the liposomes with the derivative (I) was much higher than that by the liposomes with DC-Chol or DOTMA. In addition, its transfection efficiency was enhanced greatly by the addition of protamine. Atomic force microscopy showed clearly how the size of the DNA-liposome complex was changed by protamine. Furthermore, fluorescence microscopic images showed that Cy5-labeled antisense DNAs were transferred quicker into the nucleus of the target cells by the liposomes with the derivative I in the presence of protamine. CONCLUSION: Although there exist several possible mechanisms, such as improved protection of DNA intracellularly by derivative (I), one possibility is that the DNA-protamine-liposome complex with the derivative (I) promoted gene transfection more significantly into the nucleus of the target cells using the nuclear localization signal of protamine.
Authors: G J Nabel; E G Nabel; Z Y Yang; B A Fox; G E Plautz; X Gao; L Huang; S Shu; D Gordon; A E Chang Journal: Proc Natl Acad Sci U S A Date: 1993-12-01 Impact factor: 11.205
Authors: Ingrid Kratzer; Karin Wernig; Ute Panzenboeck; Eva Bernhart; Helga Reicher; Robert Wronski; Manfred Windisch; Astrid Hammer; Ernst Malle; Andreas Zimmer; Wolfgang Sattler Journal: J Control Release Date: 2006-11-28 Impact factor: 9.776