Design, synthesis and gene delivery efficiency of novel oligo-arginine-linked PEG-lipids: Effect of oligo-arginine length

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Design, synthesis and gene delivery efficiency of novel oligo-arginine-linked PEG-lipids: Effect of oligo-arginine length
19 June 2006
Masahiko Furuhataa, Hiroko Kawakamib, KazunoriTomab, Yoshiyuki Hattoria and Yoshie Maitani
International Journal of Pharmaceutics
Abstract
The design, synthesis, and evaluation of in vitro gene delivery efficacy of a novel series of oligo-Arg-lipid conjugates are described. 3,5-Bis(dodecyloxy)benzamide (BDB) was employed as the lipid component, and a poly(ethylene glycol) (PEG) spacer was introduced between the C-terminal of oligo-Arg and the amide group of BDB. Four derivatives with various oligo-Arg lengths (ArgN-PEG-BDB; N = 4, 6, 8, 10: the number of arginine residues) were prepared, and the effect of oligo-Arg length on the gene transfection was investigated in HeLa cells. Transfection efficiency increased as the number of arginine residues increased. Arg10-PEG-BDB showed the highest transfection efficiency, without severe toxicity to cells. These findings well corresponded to the cellular association of the Arg-PEG-BDB/DNA complex determined by flow cytometry. Even in the presence of serum, Arg10-PEG-BDB achieved appreciable cellular association and attained high gene expression. Thus, Arg10-PEG-BDB is potentially a simple and useful gene delivery tool, because one need only to mix it with plasmid DNA and apply the complexes to the cells even in a serum-containing medium.
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