Gene vectors play a critical role in gene therapy. To achieve efficient transfection, we developed a novel nonvirus cationic liposome (Lipo-Par), which was bound covalently with the cationic polypeptide pardaxin (Par). Interestingly, the Lipo-Pars exhibited highly enhanced gene transfection efficiency in various cell lines compared to that of the non-Par-bonded liposomes (Lipo-Nons). As a result, the internalization and intracellular transport mechanisms of the Lipo-Pars were investigated, and the findings indicated their ability to actively target the endoplasmic reticulum (ER) by moving along the cell cytoskeleton after undergoing caveolin-mediated endocytosis. This intracellular transport process is similar to that of some viruses. It was also found that ER stress and calcium level disturbances can affect the Lipo-Par-mediated expression of certain exogenous genes. A possible, yet non-negligible explanation for the high transfection efficiency of the Lipo-Par is its virus-like intracellular behavior and the intimate relationship between the ER membrane and the nuclear envelope.
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