Title |
Targeting human dendritic cells via DEC-205 using PLGA nanoparticles leads to enhanced cross-presentation of a melanoma-associated antigen
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Published in |
International Journal of Nanomedicine, November 2014
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DOI | 10.2147/ijn.s66639 |
Pubmed ID | |
Authors |
Sandeep S Saluja, Douglas J Hanlon, Fiona A Sharp, Enping Hong, David Khalil, Eve Robinson, Robert Tigelaar, Tarek M Fahmy, Richard L Edelson |
Abstract |
Targeting antigen to dendritic cells (DCs) is a powerful and novel strategy for vaccination. Priming or loading DCs with antigen controls whether subsequent immunity will develop and hence whether effective vaccination can be achieved. The goal of our present work was to increase the potency of DC-based antitumor vaccines by overcoming inherent limitations associated with antigen stability and cross-presentation. Nanoparticles prepared from the biodegradable polymer poly(lactic-co-glycolic acid) have been extensively used in clinical settings for drug delivery and are currently the subject of intensive investigation as antigen delivery vehicles for vaccine applications. Here we describe a nanoparticulate delivery system with the ability to simultaneously carry a high density of protein-based antigen while displaying a DC targeting ligand on its surface. Utilizing a targeting motif specific for the DC-associated surface ligand DEC-205, we show that targeted nanoparticles encapsulating a MART-127-35 peptide are both internalized and cross-presented with significantly higher efficiency than isotype control-coated nanoparticles in human cells. In addition, the DEC-205-labeled nanoparticles rapidly escape from the DC endosomal compartment and do not colocalize with markers of early (EEA-1) or late endosome/lysosome (LAMP-1). This indicates that encapsulated antigens delivered by nanoparticles may have direct access to the class I cytoplasmic major histocompatibility complex loading machinery, overcoming the need for "classical" cross-presentation and facilitating heightened DC stimulation of anti-tumor CD8(+) T-cells. These results indicate that this delivery system provides a flexible and versatile methodology to deliver melanoma-associated antigen to DCs, with both high efficiency and heightened potency. |
X Demographics
Geographical breakdown
Country | Count | As % |
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United Kingdom | 1 | 50% |
Unknown | 1 | 50% |
Demographic breakdown
Type | Count | As % |
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Members of the public | 1 | 50% |
Science communicators (journalists, bloggers, editors) | 1 | 50% |
Mendeley readers
Geographical breakdown
Country | Count | As % |
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Netherlands | 1 | <1% |
Unknown | 125 | 99% |
Demographic breakdown
Readers by professional status | Count | As % |
---|---|---|
Student > Ph. D. Student | 35 | 28% |
Researcher | 19 | 15% |
Student > Bachelor | 15 | 12% |
Student > Master | 13 | 10% |
Student > Doctoral Student | 11 | 9% |
Other | 9 | 7% |
Unknown | 24 | 19% |
Readers by discipline | Count | As % |
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Agricultural and Biological Sciences | 21 | 17% |
Biochemistry, Genetics and Molecular Biology | 16 | 13% |
Immunology and Microbiology | 15 | 12% |
Medicine and Dentistry | 10 | 8% |
Engineering | 10 | 8% |
Other | 26 | 21% |
Unknown | 28 | 22% |