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Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier

The study of capture and processing of antigens (Ags) by intestinal epithelial cells is very important for development of new oral administration systems. Efficient oral Ag delivery systems must resist enzymatic degradation by gastric and intestinal proteases and deliver the Ag across biological bar...

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Autores principales: Coria, Lorena M., Risso, Gabriela S., Guaimas, Francisco F., Ferrero, Mariana C., Bruno, Laura, Pasquevich, Karina A., Cassataro, Juliana
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier Science Publishers 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6329890/
https://www.ncbi.nlm.nih.gov/pubmed/30496771
http://dx.doi.org/10.1016/j.jconrel.2018.11.025
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author Coria, Lorena M.
Risso, Gabriela S.
Guaimas, Francisco F.
Ferrero, Mariana C.
Bruno, Laura
Pasquevich, Karina A.
Cassataro, Juliana
author_facet Coria, Lorena M.
Risso, Gabriela S.
Guaimas, Francisco F.
Ferrero, Mariana C.
Bruno, Laura
Pasquevich, Karina A.
Cassataro, Juliana
author_sort Coria, Lorena M.
collection PubMed
description The study of capture and processing of antigens (Ags) by intestinal epithelial cells is very important for development of new oral administration systems. Efficient oral Ag delivery systems must resist enzymatic degradation by gastric and intestinal proteases and deliver the Ag across biological barriers. The recombinant unlipidated outer membrane protein from Brucella spp. (U-Omp19) is a protease inhibitor with immunostimulatory properties used as adjuvant in oral vaccine formulations. In the present work we further characterized its mechanism of action and studied the interaction and effect of U-Omp19 on the intestinal epithelium. We found that U-Omp19 inhibited protease activity from murine intestinal brush-border membranes and cysteine proteases from human intestinal epithelial cells (IECs) promoting co-administered Ag accumulation within lysosomal compartments of IECs. In addition, we have shown that co-administration of U-Omp19 facilitated the transcellular passage of Ag through epithelial cell monolayers in vitro and in vivo while did not affect epithelial cell barrier permeability. Finally, oral co-delivery of U-Omp19 in mice induced the production of Ag-specific IgA in feces and the increment of CD103(+) CD11b(−) CD8α(+) dendritic cells subset at Peyer's patches. Taken together, these data describe a new mechanism of action of a mucosal adjuvant and support the use of this rationale/strategy in new oral delivery systems for vaccines.
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spelling pubmed-63298902019-01-21 Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier Coria, Lorena M. Risso, Gabriela S. Guaimas, Francisco F. Ferrero, Mariana C. Bruno, Laura Pasquevich, Karina A. Cassataro, Juliana J Control Release Article The study of capture and processing of antigens (Ags) by intestinal epithelial cells is very important for development of new oral administration systems. Efficient oral Ag delivery systems must resist enzymatic degradation by gastric and intestinal proteases and deliver the Ag across biological barriers. The recombinant unlipidated outer membrane protein from Brucella spp. (U-Omp19) is a protease inhibitor with immunostimulatory properties used as adjuvant in oral vaccine formulations. In the present work we further characterized its mechanism of action and studied the interaction and effect of U-Omp19 on the intestinal epithelium. We found that U-Omp19 inhibited protease activity from murine intestinal brush-border membranes and cysteine proteases from human intestinal epithelial cells (IECs) promoting co-administered Ag accumulation within lysosomal compartments of IECs. In addition, we have shown that co-administration of U-Omp19 facilitated the transcellular passage of Ag through epithelial cell monolayers in vitro and in vivo while did not affect epithelial cell barrier permeability. Finally, oral co-delivery of U-Omp19 in mice induced the production of Ag-specific IgA in feces and the increment of CD103(+) CD11b(−) CD8α(+) dendritic cells subset at Peyer's patches. Taken together, these data describe a new mechanism of action of a mucosal adjuvant and support the use of this rationale/strategy in new oral delivery systems for vaccines. Elsevier Science Publishers 2019-01-10 /pmc/articles/PMC6329890/ /pubmed/30496771 http://dx.doi.org/10.1016/j.jconrel.2018.11.025 Text en © 2018 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Coria, Lorena M.
Risso, Gabriela S.
Guaimas, Francisco F.
Ferrero, Mariana C.
Bruno, Laura
Pasquevich, Karina A.
Cassataro, Juliana
Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
title Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
title_full Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
title_fullStr Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
title_full_unstemmed Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
title_short Oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
title_sort oral co-administration of a bacterial protease inhibitor in the vaccine formulation increases antigen delivery at the intestinal epithelial barrier
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6329890/
https://www.ncbi.nlm.nih.gov/pubmed/30496771
http://dx.doi.org/10.1016/j.jconrel.2018.11.025
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