Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination

Due to the low efficacy and the need for seasonal adaptation of currently licensed influenza A vaccines, the importance of alternative vaccination strategies is increasingly recognized. Considering that DNA vaccines can be rapidly manufactured and readily adapted with novel antigen sequences, geneti...

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Autores principales: Tannig, Pierre, Peter, Antonia Sophia, Lapuente, Dennis, Klessing, Stephan, Schmidt, Anna, Damm, Dominik, Tenbusch, Matthias, Überla, Klaus, Temchura, Vladimir
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7712647/
https://www.ncbi.nlm.nih.gov/pubmed/33019546
http://dx.doi.org/10.3390/vaccines8040570
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author Tannig, Pierre
Peter, Antonia Sophia
Lapuente, Dennis
Klessing, Stephan
Schmidt, Anna
Damm, Dominik
Tenbusch, Matthias
Überla, Klaus
Temchura, Vladimir
author_facet Tannig, Pierre
Peter, Antonia Sophia
Lapuente, Dennis
Klessing, Stephan
Schmidt, Anna
Damm, Dominik
Tenbusch, Matthias
Überla, Klaus
Temchura, Vladimir
author_sort Tannig, Pierre
collection PubMed
description Due to the low efficacy and the need for seasonal adaptation of currently licensed influenza A vaccines, the importance of alternative vaccination strategies is increasingly recognized. Considering that DNA vaccines can be rapidly manufactured and readily adapted with novel antigen sequences, genetic vaccination is a promising immunization platform. However, the applicability of different genetic adjuvants to this approach still represents a complex challenge. Immune checkpoints are a class of molecules involved in adaptive immune responses and germinal center reactions. In this study, we immunized mice by intramuscular electroporation with a DNA-vaccine encoding hemagglutinin (HA) and nucleoprotein (NP) of the influenza A virus. The DNA-vaccine was applied either alone or in combination with genetic adjuvants encoding the soluble ectodomains of programmed cell death protein-1 (sPD-1) or its ligand (sPD-L1). Co-administration of genetic checkpoint adjuvants did not significantly alter immune responses against NP. In contrast, sPD-1 co-electroporation elevated HA-specific CD4(+) T cell responses, decreased regulatory CD4(+) T cell pools, and modulated the IgG2a-biased HA antibody pattern towards an isotype-balanced IgG response with a trend to higher influenza neutralization in vitro. Taken together, our data demonstrate that a genetic DNA-adjuvant encoding soluble ectodomains of sPD-1 was able to modulate immune responses induced by a co-administered influenza DNA vaccine.
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spelling pubmed-77126472020-12-04 Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination Tannig, Pierre Peter, Antonia Sophia Lapuente, Dennis Klessing, Stephan Schmidt, Anna Damm, Dominik Tenbusch, Matthias Überla, Klaus Temchura, Vladimir Vaccines (Basel) Article Due to the low efficacy and the need for seasonal adaptation of currently licensed influenza A vaccines, the importance of alternative vaccination strategies is increasingly recognized. Considering that DNA vaccines can be rapidly manufactured and readily adapted with novel antigen sequences, genetic vaccination is a promising immunization platform. However, the applicability of different genetic adjuvants to this approach still represents a complex challenge. Immune checkpoints are a class of molecules involved in adaptive immune responses and germinal center reactions. In this study, we immunized mice by intramuscular electroporation with a DNA-vaccine encoding hemagglutinin (HA) and nucleoprotein (NP) of the influenza A virus. The DNA-vaccine was applied either alone or in combination with genetic adjuvants encoding the soluble ectodomains of programmed cell death protein-1 (sPD-1) or its ligand (sPD-L1). Co-administration of genetic checkpoint adjuvants did not significantly alter immune responses against NP. In contrast, sPD-1 co-electroporation elevated HA-specific CD4(+) T cell responses, decreased regulatory CD4(+) T cell pools, and modulated the IgG2a-biased HA antibody pattern towards an isotype-balanced IgG response with a trend to higher influenza neutralization in vitro. Taken together, our data demonstrate that a genetic DNA-adjuvant encoding soluble ectodomains of sPD-1 was able to modulate immune responses induced by a co-administered influenza DNA vaccine. MDPI 2020-10-01 /pmc/articles/PMC7712647/ /pubmed/33019546 http://dx.doi.org/10.3390/vaccines8040570 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Tannig, Pierre
Peter, Antonia Sophia
Lapuente, Dennis
Klessing, Stephan
Schmidt, Anna
Damm, Dominik
Tenbusch, Matthias
Überla, Klaus
Temchura, Vladimir
Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination
title Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination
title_full Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination
title_fullStr Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination
title_full_unstemmed Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination
title_short Genetic Co-Administration of Soluble PD-1 Ectodomains Modifies Immune Responses against Influenza A Virus Induced by DNA Vaccination
title_sort genetic co-administration of soluble pd-1 ectodomains modifies immune responses against influenza a virus induced by dna vaccination
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7712647/
https://www.ncbi.nlm.nih.gov/pubmed/33019546
http://dx.doi.org/10.3390/vaccines8040570
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