The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment

Rodent malaria species Plasmodium yoelii and P. chabaudi have been widely used to validate vaccine approaches targeting blood-stage merozoite antigens. However, increasing data suggest the P. berghei rodent malaria may be able to circumvent vaccine-induced anti-merozoite responses. Here we confirm a...

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Autores principales: Goodman, Anna L., Forbes, Emily K., Williams, Andrew R., Douglas, Alexander D., de Cassan, Simone C., Bauza, Karolis, Biswas, Sumi, Dicks, Matthew D. J., Llewellyn, David, Moore, Anne C., Janse, Chris J., Franke-Fayard, Blandine M., Gilbert, Sarah C., Hill, Adrian V. S., Pleass, Richard J., Draper, Simon J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2013
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3632886/
https://www.ncbi.nlm.nih.gov/pubmed/23609325
http://dx.doi.org/10.1038/srep01706
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author Goodman, Anna L.
Forbes, Emily K.
Williams, Andrew R.
Douglas, Alexander D.
de Cassan, Simone C.
Bauza, Karolis
Biswas, Sumi
Dicks, Matthew D. J.
Llewellyn, David
Moore, Anne C.
Janse, Chris J.
Franke-Fayard, Blandine M.
Gilbert, Sarah C.
Hill, Adrian V. S.
Pleass, Richard J.
Draper, Simon J.
author_facet Goodman, Anna L.
Forbes, Emily K.
Williams, Andrew R.
Douglas, Alexander D.
de Cassan, Simone C.
Bauza, Karolis
Biswas, Sumi
Dicks, Matthew D. J.
Llewellyn, David
Moore, Anne C.
Janse, Chris J.
Franke-Fayard, Blandine M.
Gilbert, Sarah C.
Hill, Adrian V. S.
Pleass, Richard J.
Draper, Simon J.
author_sort Goodman, Anna L.
collection PubMed
description Rodent malaria species Plasmodium yoelii and P. chabaudi have been widely used to validate vaccine approaches targeting blood-stage merozoite antigens. However, increasing data suggest the P. berghei rodent malaria may be able to circumvent vaccine-induced anti-merozoite responses. Here we confirm a failure to protect against P. berghei, despite successful antibody induction against leading merozoite antigens using protein-in-adjuvant or viral vectored vaccine delivery. No subunit vaccine approach showed efficacy in mice following immunization and challenge with the wild-type P. berghei strains ANKA or NK65, or against a chimeric parasite line encoding a merozoite antigen from P. falciparum. Protection was not improved in knockout mice lacking the inhibitory Fc receptor CD32b, nor against a Δsmac P. berghei parasite line with a non-sequestering phenotype. An improved understanding of the mechanisms responsible for protection, or failure of protection, against P. berghei merozoites could guide the development of an efficacious vaccine against P. falciparum.
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spelling pubmed-36328862013-04-23 The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment Goodman, Anna L. Forbes, Emily K. Williams, Andrew R. Douglas, Alexander D. de Cassan, Simone C. Bauza, Karolis Biswas, Sumi Dicks, Matthew D. J. Llewellyn, David Moore, Anne C. Janse, Chris J. Franke-Fayard, Blandine M. Gilbert, Sarah C. Hill, Adrian V. S. Pleass, Richard J. Draper, Simon J. Sci Rep Article Rodent malaria species Plasmodium yoelii and P. chabaudi have been widely used to validate vaccine approaches targeting blood-stage merozoite antigens. However, increasing data suggest the P. berghei rodent malaria may be able to circumvent vaccine-induced anti-merozoite responses. Here we confirm a failure to protect against P. berghei, despite successful antibody induction against leading merozoite antigens using protein-in-adjuvant or viral vectored vaccine delivery. No subunit vaccine approach showed efficacy in mice following immunization and challenge with the wild-type P. berghei strains ANKA or NK65, or against a chimeric parasite line encoding a merozoite antigen from P. falciparum. Protection was not improved in knockout mice lacking the inhibitory Fc receptor CD32b, nor against a Δsmac P. berghei parasite line with a non-sequestering phenotype. An improved understanding of the mechanisms responsible for protection, or failure of protection, against P. berghei merozoites could guide the development of an efficacious vaccine against P. falciparum. Nature Publishing Group 2013-04-23 /pmc/articles/PMC3632886/ /pubmed/23609325 http://dx.doi.org/10.1038/srep01706 Text en Copyright © 2013, Macmillan Publishers Limited. All rights reserved http://creativecommons.org/licenses/by-nc-nd/3.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/3.0/
spellingShingle Article
Goodman, Anna L.
Forbes, Emily K.
Williams, Andrew R.
Douglas, Alexander D.
de Cassan, Simone C.
Bauza, Karolis
Biswas, Sumi
Dicks, Matthew D. J.
Llewellyn, David
Moore, Anne C.
Janse, Chris J.
Franke-Fayard, Blandine M.
Gilbert, Sarah C.
Hill, Adrian V. S.
Pleass, Richard J.
Draper, Simon J.
The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
title The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
title_full The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
title_fullStr The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
title_full_unstemmed The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
title_short The utility of Plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
title_sort utility of plasmodium berghei as a rodent model for anti-merozoite malaria vaccine assessment
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3632886/
https://www.ncbi.nlm.nih.gov/pubmed/23609325
http://dx.doi.org/10.1038/srep01706
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