Shielding the cationic charge of nanoparticle-formulated dermal DNA vaccines is essential for antigen expression and immunogenicity
Publication date
2010
Authors
Berg, J.H. van den
Oosterhuis, K.
Hennink, W.E.
Storm, G.
Aa, L.J.
Engbersen, J.F.J.
Haanen, J.B.A.G.
Beijnen, J.H.
Schumacher, T.N.
Nuijen, B.
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Advisors
Supervisors
Document Type
Article
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Abstract
Nanoparticle-formulated DNA vaccines hold promise for the design of in vivo vaccination platforms that
target defined cell types in human skin. A variety of DNA formulations, mainly based on cationic liposomes or
polymers, has been investigated to improve transfection efficiency in in vitro assays.
Here we demonstrate that formulation of DNA into both liposomal and polymeric cationic nanoparticles
completely blocks vaccination-induced antigen expression in mice and ex vivo human skin. Furthermore, this
detrimental effect of cationic nanoparticle formulation is associated with an essentially complete block in
vaccine immunogenicity. The blocking of DNA vaccine activity may be explained by immobilization of the
nanoparticles in the extracellular matrix, caused by electrostatic interactions of the cationic nanoparticles
with negatively charged extracellular matrix components. Shielding the surface charge of the nanoparticles
by PEGylation improves in vivo antigen expression more than 55 fold. Furthermore, this shielding of cationic
surface charge results in antigen-specific T cell responses that are similar as those induced by naked DNA for
the two lipo- and polyplex DNA carrier systems. These observations suggest that charge shielding forms a
generally applicable strategy for the development of dermally applied vaccine formulations. Furthermore,
the nanoparticle formulations developed here form an attractive platform for the design of targeted
nanoparticle formulations that can be utilized for in vivo transfection of defined cell types.
Keywords
DNA vaccination, PEGylation, DNA tattooing, Nanoparticles, Dermal delivery