Parameters affecting the liposome-mediated insertion of RNA into eucaryotic cells in vitro

The effect of various parameters on the liposome-mediated insertion of RNA into eucaryotic cells in vitro has been studied. Maximization of the insertion of liposome-encapsulated RNA into cells was approached at three levels: (1) alteration of liposome membrane composition, (2) alteration of the recipient cell membrane, and (3) manipulation of the conditions of liposome-cell cocultivation. (1) Changes in liposome membrane composition failed to affect the amount of RNA sequestered within liposomes but did alter the efficiency and mode of liposome uptake by human epithelial carcinoma cells, rabbit spleen lymphocytes, and carrot protoplasts. Addition of lysolecithin to the liposome membrane enhanced the cellular uptake of liposome-sequestered RNA by a “fusion” mechanism (uptake in the presence of cytochalasin B), while addition of cholesterol was inhibitory. (2) Uptake of liposome-sequestered RNA was enhanced when (a) cells were in the mitotic phase of the cell cycle; (b) cells were pretreated with cholesterol-free liposomes; and (c) cells were treated with Piracetam (2-oxo-1-pyrrolidine acetamide). The increased cellular uptake of liposomes appeared in most cases to be due to enhanced cell membrane fluidity. (3) Liposome uptake by cells was directly proportional to the time of liposome-cell cocultivation and to cell number. Increasing doses of liposomes resulted in a reduction of the percentage of RNA uptake, possibly due to a saturation phenomenon. When several of the investigated parameters were simultaneously maximized, as high as 20% of the liposome-sequestered RNA was inserted into human epithelial carcinoma cells.