RGDK-lipopeptide for targeting genetic vaccines to antigen presenting cells.

To ensure effective immune response in genetic immunizations, DNA/mRNA vaccines need to be delivered to body's antigen presenting cells (APCs) which is a challenging task. This is primarily due to presence of high concentrations of various degradative enzymes inside them. To this end, mannose receptor (over expressed in APCs) selective cationic liposomes have been used in the past for delivering antigen-encoded plasmid DNA to APCs. APCs also express integrin receptors on their cell surfaces. However, studies aimed at delivering DNA vaccines into APCs via integrin receptors have not yet been undertaken. Herein, we report on the use of cationic liposomes of a priorly disclosed α5β1 integrin receptor selective RGDK-lipopeptide for macrophage transfection. In this study, we have used pCMV-GFP (as model DNA vaccine) and RAW 264.7 cells (mouse macrophages cells) as model APC. We show that the liposomes of RGDK-lipopeptide containing a previously reported endosome-disrupting histidinylated lipid and DOPE (as co-lipid) in 0.5:0.5:1.0 mole ratio are the most competent in transfecting macrophage cells (44%). Findings in the fluorescence resonance energy transfer based membrane fusogencity assay revealed that the enhanced macrophage transfection efficiency of the liposomes containing RGDK-lipopeptide, endosome-disrupting histidinylated and DOPE may originate from its higher membrane fusogenicity than that for liposomes containing only RGDK-lipopeptide and DOPE. The presently described biologically safe liposomal formulations of RGDK-lipopeptide are expected to find biomedical applications in future for combating cancer and infectious diseases through genetic immunizations.