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Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages

Aluminum salts have been successfully utilized as adjuvants to enhance the immunogenicity of vaccine antigens since the 1930s. However, the cellular mechanisms behind the immune adjuvanticity effect of these materials in antigen‐presenting cells are poorly understood. In this study, we investigated...

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Autores principales: Jaldin‐Fincati, Javier R., Moussaoui, Serene, Gimenez, Maria Cecilia, Ho, Cheuk Y., Lancaster, Charlene E., Botelho, Roberto J., Ausar, Salvador F., Brookes, Roger H., Terebiznik, Mauricio R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9321756/
https://www.ncbi.nlm.nih.gov/pubmed/35344242
http://dx.doi.org/10.1111/mmi.14900
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author Jaldin‐Fincati, Javier R.
Moussaoui, Serene
Gimenez, Maria Cecilia
Ho, Cheuk Y.
Lancaster, Charlene E.
Botelho, Roberto J.
Ausar, Salvador F.
Brookes, Roger H.
Terebiznik, Mauricio R.
author_facet Jaldin‐Fincati, Javier R.
Moussaoui, Serene
Gimenez, Maria Cecilia
Ho, Cheuk Y.
Lancaster, Charlene E.
Botelho, Roberto J.
Ausar, Salvador F.
Brookes, Roger H.
Terebiznik, Mauricio R.
author_sort Jaldin‐Fincati, Javier R.
collection PubMed
description Aluminum salts have been successfully utilized as adjuvants to enhance the immunogenicity of vaccine antigens since the 1930s. However, the cellular mechanisms behind the immune adjuvanticity effect of these materials in antigen‐presenting cells are poorly understood. In this study, we investigated the uptake and trafficking of aluminum oxy‐hydroxide (AlOOH), in RAW 264.7 murine and U‐937 human macrophages‐like cells. Furthermore, we determined the impact that the adsorption to AlOOH particulates has on the trafficking of a Bordetella pertussis vaccine candidate, the genetically detoxified pertussis toxin (gdPT). Our results indicate that macrophages internalize AlOOH by constitutive macropinocytosis assisted by the filopodial protrusions that capture the adjuvant particles. Moreover, we show that AlOOH has the capacity to nonspecifically adsorb IgG, engaging opsonic phagocytosis, which is a feature that may allow for more effective capture and uptake of adjuvant particles by antigen‐presenting cells (APCs) at the site of vaccine administration. We found that AlOOH traffics to endolysosomal compartments that hold degradative properties. Importantly, while we show that gdPT escapes degradative endolysosomes and traffics toward the retrograde pathway, as reported for the wild‐type pertussis toxin, the adsorption to AlOOH diverts gdPT to traffic to the adjuvant’s lysosome‐type compartments, which may be key for MHC‐II‐driven antigen presentation and activation of CD4(+) T cell. Thus, our findings establish a direct link between antigen adsorption to AlOOH and the intracellular trafficking of antigens within antigen‐presenting cells and bring to light a new potential mechanism for aluminum adjuvancy. Moreover, the in‐vitro single‐cell approach described herein provides a general framework and tools for understanding critical attributes of other vaccine formulations.
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spelling pubmed-93217562022-07-30 Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages Jaldin‐Fincati, Javier R. Moussaoui, Serene Gimenez, Maria Cecilia Ho, Cheuk Y. Lancaster, Charlene E. Botelho, Roberto J. Ausar, Salvador F. Brookes, Roger H. Terebiznik, Mauricio R. Mol Microbiol Research Articles Aluminum salts have been successfully utilized as adjuvants to enhance the immunogenicity of vaccine antigens since the 1930s. However, the cellular mechanisms behind the immune adjuvanticity effect of these materials in antigen‐presenting cells are poorly understood. In this study, we investigated the uptake and trafficking of aluminum oxy‐hydroxide (AlOOH), in RAW 264.7 murine and U‐937 human macrophages‐like cells. Furthermore, we determined the impact that the adsorption to AlOOH particulates has on the trafficking of a Bordetella pertussis vaccine candidate, the genetically detoxified pertussis toxin (gdPT). Our results indicate that macrophages internalize AlOOH by constitutive macropinocytosis assisted by the filopodial protrusions that capture the adjuvant particles. Moreover, we show that AlOOH has the capacity to nonspecifically adsorb IgG, engaging opsonic phagocytosis, which is a feature that may allow for more effective capture and uptake of adjuvant particles by antigen‐presenting cells (APCs) at the site of vaccine administration. We found that AlOOH traffics to endolysosomal compartments that hold degradative properties. Importantly, while we show that gdPT escapes degradative endolysosomes and traffics toward the retrograde pathway, as reported for the wild‐type pertussis toxin, the adsorption to AlOOH diverts gdPT to traffic to the adjuvant’s lysosome‐type compartments, which may be key for MHC‐II‐driven antigen presentation and activation of CD4(+) T cell. Thus, our findings establish a direct link between antigen adsorption to AlOOH and the intracellular trafficking of antigens within antigen‐presenting cells and bring to light a new potential mechanism for aluminum adjuvancy. Moreover, the in‐vitro single‐cell approach described herein provides a general framework and tools for understanding critical attributes of other vaccine formulations. John Wiley and Sons Inc. 2022-04-07 2022-05 /pmc/articles/PMC9321756/ /pubmed/35344242 http://dx.doi.org/10.1111/mmi.14900 Text en © 2022 The Authors. Molecular Microbiology published by John Wiley & Sons Ltd. https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Jaldin‐Fincati, Javier R.
Moussaoui, Serene
Gimenez, Maria Cecilia
Ho, Cheuk Y.
Lancaster, Charlene E.
Botelho, Roberto J.
Ausar, Salvador F.
Brookes, Roger H.
Terebiznik, Mauricio R.
Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
title Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
title_full Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
title_fullStr Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
title_full_unstemmed Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
title_short Aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
title_sort aluminum hydroxide adjuvant diverts the uptake and trafficking of genetically detoxified pertussis toxin to lysosomes in macrophages
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9321756/
https://www.ncbi.nlm.nih.gov/pubmed/35344242
http://dx.doi.org/10.1111/mmi.14900
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