Enhancement of dendritic cells transfection in vivo and of vaccination against B16F10 melanoma with mannosylated histidylated lipopolyplexes loaded with tumor antigen messenger RNA

Abstract We report the preparation of mannosylated nanoparticles loaded with messenger RNA (mRNA) that enhance the transfection of dendritic cells (DCs) in vivo and the anti-B16F10 melanoma vaccination in mice. Mannosylated and histidylated lipopolyplexes (Man11 -LPR100) were obtained by adding mann...

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Veröffentlicht in:Nanomedicine 2011-08, Vol.7 (4), p.445-453
Hauptverfasser: Perche, Federico, Mc, Benvegnu, Thierry, PhD, Berchel, Mathieu, PhD, Lebegue, Loic, BSc, Pichon, Chantal, PhD, Jaffrès, Paul-Alain, PhD, Midoux, Patrick, PhD
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Sprache:eng
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Zusammenfassung:Abstract We report the preparation of mannosylated nanoparticles loaded with messenger RNA (mRNA) that enhance the transfection of dendritic cells (DCs) in vivo and the anti-B16F10 melanoma vaccination in mice. Mannosylated and histidylated lipopolyplexes (Man11 -LPR100) were obtained by adding mannosylated and histidylated liposomes to mRNA-PEGylated histidylated polylysine polyplexes. Upon intravenous injection, ∼9% of the radioactivity of technetium 99 m–labeled lipopolyplexes measured in the liver, spleen, lungs, and kidneys was found in the spleen. We demonstrate that spleen from mice injected with enhanced green fluorescent protein (EGFP) mRNA-loaded Man11 -LPR100 contained four times more DCs expressing EGFP than that from mice injected with sugar-free LPR100. This better transfection of DCs is correlated with a better inhibition of B16F10 melanoma growth and an increased survival time when mice were immunized with MART-1 mRNA-loaded Man11 -LPR100. These results indicate that mannosylated and histidylated LPR is an efficient system for the delivery of tumor antigen mRNA in splenic DCs aiming to induce an anticancer immune response. From the Clinical Editor This paper discusses the preparation of mannosylated nanoparticles loaded with messenger RNA that enhance the transfection of dendritic cells (DCs) in vivo and the anti-B16F10 melanoma vaccination in mice. The authors describe an efficient system for the delivery of tumor antigen mRNA in splenic DCs aiming to induce an anticancer immune response.
ISSN:1549-9634
1549-9642
DOI:10.1016/j.nano.2010.12.010