- 1) Robbins, P. D., and Ghivizzani, S. C., Viral vectors for gene therapy. Pharmacol. Ther., 80, 35–47 (1998).
- 2) Lehrman, S., Virus treatment questioned after gene therapy death. Nature, 401, 517–518 (1999).
- 3) Felgner, P. L., Gadak, T. R., Holm, M., Roman, R., Chan, M., Wenz, H. W., Northrop, J. P., Ringold, G. M., and Danielsen, M., Lipofection: a highly efficient, lipid-mediated DNA transfection procedure. Proc. Natl. Acad. Sci. U.S.A., 84, 7413–7417 (1987).
- 4) Felgner, P. L., and Ringold, G. M., Cationic liposome-mediated transfection. Nature, 337, 387–388 (1989).
- 5) Malone, R. W., Felgner, P. L., and Verma, I. M., Cationic liposome-mediated RNA transfection. Proc. Natl. Acad. Sci. U.S.A., 86, 6077–6081 (1989).
- 6) LeVentis, R., and Silvius, J. T., Interactions of mammalian cells with lipid dispersions containing novel metabolizable cationic amphiphiles. Biochim. Biophys. Acta, 1023, 124–132 (1990).
- 7) Nabel, G. L., Nabel, E. G., Yang, Z. Y., Fox, B. A., Plautz, G. E., Gao, X., Huang, L., Shu, S., Gordon, D., and Chang, A. E., Direct gene transfer with DNA liposome complexes in melanoma: expression, biological activity, and lack of toxicity in humans. Proc. Natl. Acad. Sci. U.S.A., 90, 11307–11311 (1993).
- 8) Caplen, N. J., Alton, E. W., Middleton, P. G., Dorin, J. R., Stevenson, B. J., Gao, X., Durham, S. R., Jeffery, P. K., Hodson, M. E., Coutelle, C., Huang, L., Porteous, D. J., Williamson, R., and Geddes, D. M., Liposome-mediated CFTR gene transfer to the nasal epithelium of patients with cystic fibrosis. Nature Med., 1, 39–46 (1995).
- 9) Leventis, R., and Silvius, J. R., Interactions of mammalian cells with lipid dispersions containing novel metabolizable cationic amphiphiles. Biochim. Biophys. Acta, 1023, 124–132 (1990).
- 10) Behr, J. P., Demeneix, B., Loeffler, J. P., and Perez-Mutul, J., Efficient gene transfer into mammalian primary endocrine cells with lipopolyamine-coated DNA. Proc. Natl. Acad. Sci. U.S.A., 86, 6982–6986 (1989).
- 11) Kielian, T., and Hickey, W. F., Inflammatory thoughts about glioma gene therapy. Nat. Med., 5, 1237–1238 (1999).
- 12) Nabel, E. G., Gordon, D., Yang, Z. Y., Xu, L., San, H., Plautz, G. E., Wu, B. Y., Gao, X., Huang, L., and Nabel, G. J., Gene transfer in vivo with DNA-liposome complexes: lack of autoimmunity and gonadal localization. Hum. Gene Ther., 3, 649–656 (1992).
- 13) Thierry, A. R., Lunardi-Iskandar, Y., Bryant, J. L., Rabinovich, P., Gallo, R. C., and Mahan, L. C., Systemic gene therapy: biodistribution and long-term expression of a transgene in mice. Proc. Natl. Acad. Sci. U.S.A., 92, 9742–9746 (1995).
- 14) Chu, G., Hayakawa, H., and Berg, P., Electroporation for the efficient transfection of mammalian cells with DNA. Nucl. Acids Res., 15, 1311–1326 (1987).
- 15) Graham, F. L., and van der Eb, A. J., A new technique for the assay of infectivity of human adenovirus 5. Virology, 52, 456–467 (1973).
- 16) Simberg, D., Danino, D., Talmon, Y., Minsky, A., Ferrari, M. E., Wheeler, C. J., and Barrenholz, Y., Phase behavior, DNA ordering, and size instability of cationic lipoplexes. J. Biol. Chem., 276, 47453–47459 (2001).
- 17) Matsumoto, S., Kohda, M., and Murata, D. I., Preparation of lipid vesicles on the basis of a technique for providing w/o/w emulsions. J. Colloid Interf. Sci., 62, 149–157 (1977).
- 18) Yoshioka, T., Sternberg, B., and Florence, A. T., Preparation and properties of vesicles (niosomes) of sorbitan monoesters (Span 20, 40, 60 and 80) and a sorbitan triester (Span 85). Int. J. Pharm., 105, 1–6 (1994).
- 19) Kato, K., Sugahara, T., Kawashima, S., Hayashi, Y., Yoshihiro, A., and Sasaki, T., Study of the specific binding between lipid vesicles and human-human hybridoma toward either DDS or gene transfection. In “Animal Cell Technology: Products from Cells, Cells as Products”, eds. Bernard, A., Griffiths, B., Noe, W., and Wurm, F., Kluwer Academic Publishers, Dordrecht, pp. 433–435 (1999).
- 20) Murakami, Y., Nakano, A., Yoshimatsu, A., Uchitomi, K., and Matsuda, Y., Characterization of molecular aggregates of peptide amphiphiles and kinetics of dynamic processes performed by single-walled vesicles. J. Am. Chem. Soc., 106, 3613–3623 (1984).
- 21) Murakami, Y., Naklano, A., and Ikeda, H., Preparation of stable single-compartment vesicles with cationic and zwitterionic amphiphiles involving amino acid residues. J. Org. Chem., 47, 2137–2144 (1982).
- 22) Murakami, Y., Hisaeda, Y., and Ohno, T., Hydrophobic vitamin B12. III. Incorporation of hydrophobic vitamin B12 derivatives into single-compartment vesicles and their alkylation in various molecular aggregates. Bull. Chem. Soc. Jpn., 57, 2091–2097 (1984).
- 23) Murakami, Y., Hisaeda, Y., and Ohno, T., Hydrophobic vitamin B12. Part 9. An artificial holoenzyme composed of hydrophobic vitamin B12 and synthetic bilayer membrane for carbon-skeleton rearrangements. J. Chem. Soc., Perkin Trans. 2, 405–416 (1991).
- 24) Kato, K., Ikeda, T., and Shinozaki, M., Lipid-membrane characteristics of large lipid-vesicles prepared by the two-step emulsification technique and enzymatic NAD+-recycling in the vesicle. J. Chem. Eng. Japan, 26, 212–216 (1993).
- 25) Lesage, D., Cao, A., Briane, D., Lievre, N., Coudert, R., Raphael, M., Salzmann, J., and Taillandier, E., Evaluation and optimization of DNA delivery into gliosarcoma 9L cells by a cholesterol-based cationic liposome. Biochim. Biophys. Acta, 1564, 393–402 (2002).
- 26) Mannisto, M., Vanderkerken, S., Toncheva, V., Elomaa, M., Ruponen, M., Schacht, E., and Urtti, A., Structure-activity relationships of poly(L-lysines): effects of pegylation and molecular shape on physicochemical and biological properties in gene delivery. J. Control Release, 83, 169–182 (2002).
- 27) Liu, G., Molas, M., Grossmann, G. A., Pasumarthy, M., Perales, J. C., Cooper, M. J., and Hanson, R. W., Biological properties of poly-L-lysine-DNA complexes generated by cooperative binding of the polycation. J. Biol. Chem., 276, 34379–34387 (2001).
- 28) Mizuarai, S., Ono, K., You, J., Kamihira, M., and Iijima, S., Protamine-modified DDAB lipid vesicles promote gene transfer in the presence of serum. J. Biochem., 129, 125–132 (2001).
- 29) Escriou, V., Cioline, C., Lacroix, F., Byk, G., Scherman, D., and Wils, P., Cationic lipid-mediated gene transfer: effect of serum on cellular uptake and intracellular fate of lipopolyamine/DNA complexes. Biochim. Biophys. Acta, 1368, 276–288 (1998).
- 30) Hofland, H. E., Shephard, L., and Sullivan, S. M., Formation of stable cationic lipid/DNA complexes for gene transfer. Proc. Natl. Acad. Sci. U.S.A., 93, 7305–7309 (1996).
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Gene Transfection into HeLa Cells by Vesicles Containing Cationic Peptide Lipid
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