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外文期刊>The journal of immunology
>Improving Protective Immunity Induced by DNA-Based Immunization: Priming with Antigen and GM-CSF-Encoding Plasmid DNA and Boosting with Antigen-Expressing Recombinant Poxvirus
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Improving Protective Immunity Induced by DNA-Based Immunization: Priming with Antigen and GM-CSF-Encoding Plasmid DNA and Boosting with Antigen-Expressing Recombinant Poxvirus
Intramuscular immunization with a naked DNA plasmid expressing the Plasmodium yoelii circumsporozoite protein (p Py CSP) protects mice against challenge with P. yoelii sporozoites. This protection can be improved either by coadministration of a plasmid expressing murine GM-CSF (pGMCSF) or by boosting with recombinant poxvirus expressing the Py CSP. We now report that combining these two strategies, by first mixing the priming dose of p Py CSP with pGMCSF and then boosting with recombinant virus, can substantially increase vaccine effectiveness. Not only were immune responses and protection improved but the p Py CSP dose could be lowered from 100 μg to 1 μg with little loss of immunogenicity after boost with recombinant poxvirus. Comparing mice primed by the 1-μg doses of p Py CSP plus 1 μg pGMCSF with mice primed by 1-μg doses of p Py CSP alone, the former were better protected (60% vs 0) and had higher concentrations of Abs (titers of 163, 840 vs 5, 120 by indirect fluorescent Ab test against sporozoites), more ex vivo CTL activity (25% vs 7% specific lysis), and more IFN-γ-secreting cells by enzyme-linked immunospot assay (1460 vs 280 IFN-γ spot-forming cells/106 cells). Priming with plasmid vaccine plus pGMCSF and boosting with recombinant poxviruses strongly improves the immunogenicity and protective efficacy of DNA vaccination and allows for significant reduction of dose.
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