Transgene expression and local tissue distribution of naked and polymer-condensed plasmid DNA after intradermal administration in mice

DNA vaccination using cationic polymers as carriers has the potential to be a very powerful method of immunotherapy, but typical immune responses generated have been less than robust. To better understand the details of DNA vaccine delivery in vivo, we prepared polymer/DNA complexes using three stru...

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Bibliographic Details
Published in:Journal of controlled release 2012-04, Vol.159 (2), p.232-239
Main Authors: Palumbo, R. Noelle, Zhong, Xiao, Panus, David, Han, Wenqing, Ji, Weihang, Wang, Chun
Format: Article
Language:English
Subjects:
Acrylic Resins - chemistry
Animals
Antigen-presenting cells
Biodistribution
Biological and medical sciences
Cations
Controlled release
Dendritic cells
detection limit
DNA - administration & dosage
DNA - genetics
DNA - pharmacokinetics
DNA vaccines
Drug Carriers - chemistry
Drug Stability
Fibroblasts
Gene Expression
General pharmacology
image analysis
imaging
Immune response
Immunotherapy
injection site
Injections, Intradermal
luciferase
Luciferases - genetics
Lymph nodes
Macrophages
Male
Medical sciences
Methacrylates - chemistry
Mice
Mice, Inbred C57BL
Microscopy, Confocal
Microscopy, Fluorescence
Molecular Structure
PEGylation
Pharmaceutical technology. Pharmaceutical industry
Pharmacology. Drug treatments
Plasmids
Plasmids - administration & dosage
Plasmids - genetics
Plasmids - pharmacokinetics
Polyethylene Glycols - chemistry
Polyethyleneimine - chemistry
polymers
Polymers - chemistry
Polyplexes
recombinant vaccines
Skin
Skin - metabolism
Tissue Distribution
Transfection
Transgenes
Transgenes - genetics
vaccination
Vaccines, DNA - administration & dosage
Vaccines, DNA - genetics
Vaccines, DNA - pharmacokinetics
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Summary:DNA vaccination using cationic polymers as carriers has the potential to be a very powerful method of immunotherapy, but typical immune responses generated have been less than robust. To better understand the details of DNA vaccine delivery in vivo, we prepared polymer/DNA complexes using three structurally distinct cationic polymers and fluorescently labeled plasmid DNA and injected them intradermally into mice. We analyzed transgene expression (luciferase) and the local tissue distribution of the labeled plasmid at the injection site at various time points (from hours to days). Comparable numbers of luciferase expressing cells were observed in the skin of mice receiving naked plasmid or polyplexes one day after transfection. At day 4, however, the polyplexes appeared to result in more transfected skin cells than naked plasmid. Live animal imaging revealed that naked plasmid dispersed quickly in the skin of mice after injection and had a wider distribution than any of the three types of polyplexes. However, naked plasmid level dropped to below detection limit after 24h, whereas polyplexes persisted for up to 2weeks. The PEGylated polyplexes had a significantly wider distribution in the tissue than the nonPEGylated polyplexes. PEGylated polyplexes also distributed more broadly among dermal fibroblasts and allowed greater interaction with antigen-presenting cells (APCs) (dendritic cells and macrophages) starting at around 24h post-injection. By day 4, co-localization of polyplexes with APCs was observed at the injection site regardless of polymer structure, whereas small amounts of polyplexes were found in the draining lymph nodes. These in vivo findings demonstrate the superior stability of PEGylated polyplexes in physiological milieu and provide important insight on how cationic polymers could be optimized for DNA vaccine delivery. [Display omitted]
ISSN:0168-3659
1873-4995
DOI:10.1016/j.jconrel.2012.01.012