An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia

There is a requirement for an efficacious vaccine to protect people against infection from Francisella tularensis, the etiological agent of tularemia. The lipopolysaccharide (LPS) of F. tularensis is suboptimally protective against a parenteral lethal challenge in mice. To develop a more efficacious...

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Autores principales: Marshall, Laura E., Nelson, Michelle, Davies, Carwyn H., Whelan, Adam O., Jenner, Dominic C., Moule, Madeleine G., Denman, Carmen, Cuccui, Jon, Atkins, Timothy P., Wren, Brendan W., Prior, Joann L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6304830/
https://www.ncbi.nlm.nih.gov/pubmed/30622981
http://dx.doi.org/10.1155/2018/8087916
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author Marshall, Laura E.
Nelson, Michelle
Davies, Carwyn H.
Whelan, Adam O.
Jenner, Dominic C.
Moule, Madeleine G.
Denman, Carmen
Cuccui, Jon
Atkins, Timothy P.
Wren, Brendan W.
Prior, Joann L.
author_facet Marshall, Laura E.
Nelson, Michelle
Davies, Carwyn H.
Whelan, Adam O.
Jenner, Dominic C.
Moule, Madeleine G.
Denman, Carmen
Cuccui, Jon
Atkins, Timothy P.
Wren, Brendan W.
Prior, Joann L.
author_sort Marshall, Laura E.
collection PubMed
description There is a requirement for an efficacious vaccine to protect people against infection from Francisella tularensis, the etiological agent of tularemia. The lipopolysaccharide (LPS) of F. tularensis is suboptimally protective against a parenteral lethal challenge in mice. To develop a more efficacious subunit vaccine, we have used a novel biosynthetic technique of protein glycan coupling technology (PGCT) that exploits bacterial N-linked glycosylation to recombinantly conjugate F. tularensis O-antigen glycans to the immunogenic carrier protein Pseudomonas aeruginosa exoprotein A (ExoA). Previously, we demonstrated that an ExoA glycoconjugate with two glycosylation sequons was capable of providing significant protection to mice against a challenge with a low-virulence strain of F. tularensis. Here, we have generated a more heavily glycosylated conjugate vaccine and evaluated its efficacy in a Fischer 344 rat model of tularemia. We demonstrate that this glycoconjugate vaccine protected rats against disease and the lethality of an inhalational challenge with F. tularensis Schu S4. Our data highlights the potential of this biosynthetic approach for the creation of next-generation tularemia subunit vaccines.
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spelling pubmed-63048302019-01-08 An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia Marshall, Laura E. Nelson, Michelle Davies, Carwyn H. Whelan, Adam O. Jenner, Dominic C. Moule, Madeleine G. Denman, Carmen Cuccui, Jon Atkins, Timothy P. Wren, Brendan W. Prior, Joann L. J Immunol Res Research Article There is a requirement for an efficacious vaccine to protect people against infection from Francisella tularensis, the etiological agent of tularemia. The lipopolysaccharide (LPS) of F. tularensis is suboptimally protective against a parenteral lethal challenge in mice. To develop a more efficacious subunit vaccine, we have used a novel biosynthetic technique of protein glycan coupling technology (PGCT) that exploits bacterial N-linked glycosylation to recombinantly conjugate F. tularensis O-antigen glycans to the immunogenic carrier protein Pseudomonas aeruginosa exoprotein A (ExoA). Previously, we demonstrated that an ExoA glycoconjugate with two glycosylation sequons was capable of providing significant protection to mice against a challenge with a low-virulence strain of F. tularensis. Here, we have generated a more heavily glycosylated conjugate vaccine and evaluated its efficacy in a Fischer 344 rat model of tularemia. We demonstrate that this glycoconjugate vaccine protected rats against disease and the lethality of an inhalational challenge with F. tularensis Schu S4. Our data highlights the potential of this biosynthetic approach for the creation of next-generation tularemia subunit vaccines. Hindawi 2018-11-29 /pmc/articles/PMC6304830/ /pubmed/30622981 http://dx.doi.org/10.1155/2018/8087916 Text en Copyright © 2018 Laura E. Marshall et al. http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Marshall, Laura E.
Nelson, Michelle
Davies, Carwyn H.
Whelan, Adam O.
Jenner, Dominic C.
Moule, Madeleine G.
Denman, Carmen
Cuccui, Jon
Atkins, Timothy P.
Wren, Brendan W.
Prior, Joann L.
An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia
title An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia
title_full An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia
title_fullStr An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia
title_full_unstemmed An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia
title_short An O-Antigen Glycoconjugate Vaccine Produced Using Protein Glycan Coupling Technology Is Protective in an Inhalational Rat Model of Tularemia
title_sort o-antigen glycoconjugate vaccine produced using protein glycan coupling technology is protective in an inhalational rat model of tularemia
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6304830/
https://www.ncbi.nlm.nih.gov/pubmed/30622981
http://dx.doi.org/10.1155/2018/8087916
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