Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.

Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.

West Nile virus (WNV) is a mosquito-borne flavivirus that is endemic in Africa, the Middle East, Europe and the United States. There is currently no antiviral treatment or human vaccine available to treat or prevent WNV infection. DNA plasmid-based vaccines represent a new approach for controlling i...

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Main Authors: Marina De Filette, Silke Soehle, Sebastian Ulbert, Justin Richner, Michael S Diamond, Alessandro Sinigaglia, Luisa Barzon, Stefan Roels, Julianna Lisziewicz, Orsolya Lorincz, Niek N Sanders
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3913677?pdf=render
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spelling doaj-d9251860cc0e4d3f819912debde96d9d2020-11-24T21:24:18ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0192e8783710.1371/journal.pone.0087837Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.Marina De FiletteSilke SoehleSebastian UlbertJustin RichnerMichael S DiamondAlessandro SinigagliaLuisa BarzonStefan RoelsJulianna LisziewiczOrsolya LorinczNiek N SandersWest Nile virus (WNV) is a mosquito-borne flavivirus that is endemic in Africa, the Middle East, Europe and the United States. There is currently no antiviral treatment or human vaccine available to treat or prevent WNV infection. DNA plasmid-based vaccines represent a new approach for controlling infectious diseases. In rodents, DNA vaccines have been shown to induce B cell and cytotoxic T cell responses and protect against a wide range of infections. In this study, we formulated a plasmid DNA vector expressing the ectodomain of the E-protein of WNV into nanoparticles by using linear polyethyleneimine (lPEI) covalently bound to mannose and examined the potential of this vaccine to protect against lethal WNV infection in mice. Mice were immunized twice (prime--boost regime) with the WNV DNA vaccine formulated with lPEI-mannose using different administration routes (intramuscular, intradermal and topical). In parallel a heterologous boost with purified recombinant WNV envelope (E) protein was evaluated. While no significant E-protein specific humoral response was generated after DNA immunization, protein boosting of DNA-primed mice resulted in a marked increase in total neutralizing antibody titer. In addition, E-specific IL-4 T-cell immune responses were detected by ELISPOT after protein boost and CD8(+) specific IFN-γ expression was observed by flow cytometry. Challenge experiments using the heterologous immunization regime revealed protective immunity to homologous and virulent WNV infection.http://europepmc.org/articles/PMC3913677?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Marina De Filette
Silke Soehle
Sebastian Ulbert
Justin Richner
Michael S Diamond
Alessandro Sinigaglia
Luisa Barzon
Stefan Roels
Julianna Lisziewicz
Orsolya Lorincz
Niek N Sanders
spellingShingle Marina De Filette
Silke Soehle
Sebastian Ulbert
Justin Richner
Michael S Diamond
Alessandro Sinigaglia
Luisa Barzon
Stefan Roels
Julianna Lisziewicz
Orsolya Lorincz
Niek N Sanders
Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
PLoS ONE
author_facet Marina De Filette
Silke Soehle
Sebastian Ulbert
Justin Richner
Michael S Diamond
Alessandro Sinigaglia
Luisa Barzon
Stefan Roels
Julianna Lisziewicz
Orsolya Lorincz
Niek N Sanders
author_sort Marina De Filette
title Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
title_short Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
title_full Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
title_fullStr Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
title_full_unstemmed Vaccination of mice using the West Nile virus E-protein in a DNA prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
title_sort vaccination of mice using the west nile virus e-protein in a dna prime-protein boost strategy stimulates cell-mediated immunity and protects mice against a lethal challenge.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description West Nile virus (WNV) is a mosquito-borne flavivirus that is endemic in Africa, the Middle East, Europe and the United States. There is currently no antiviral treatment or human vaccine available to treat or prevent WNV infection. DNA plasmid-based vaccines represent a new approach for controlling infectious diseases. In rodents, DNA vaccines have been shown to induce B cell and cytotoxic T cell responses and protect against a wide range of infections. In this study, we formulated a plasmid DNA vector expressing the ectodomain of the E-protein of WNV into nanoparticles by using linear polyethyleneimine (lPEI) covalently bound to mannose and examined the potential of this vaccine to protect against lethal WNV infection in mice. Mice were immunized twice (prime--boost regime) with the WNV DNA vaccine formulated with lPEI-mannose using different administration routes (intramuscular, intradermal and topical). In parallel a heterologous boost with purified recombinant WNV envelope (E) protein was evaluated. While no significant E-protein specific humoral response was generated after DNA immunization, protein boosting of DNA-primed mice resulted in a marked increase in total neutralizing antibody titer. In addition, E-specific IL-4 T-cell immune responses were detected by ELISPOT after protein boost and CD8(+) specific IFN-γ expression was observed by flow cytometry. Challenge experiments using the heterologous immunization regime revealed protective immunity to homologous and virulent WNV infection.
url http://europepmc.org/articles/PMC3913677?pdf=render
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