Intranasal influenza-vectored vaccine expressing pneumococcal surface protein A protects against Influenza and Streptococcus pneumoniae infections

Streptococcus pneumoniae and influenza A virus (IAV) are significant agents of pneumonia cases and severe respiratory infections globally. Secondary bacterial infections, particularly by Streptococcus pneumoniae , are common in IAV-infected individuals, leading to critical outcomes. Despite reducing...

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Veröffentlicht in:	npj vaccines 2024-12, Vol.9 (1), p.246
Hauptverfasser:	Cardoso, Kimberly Freitas, de Souza, Lara Regina Alves, da Silva Santos, Beatriz Senra Álvares, de Carvalho, Ketyllen Reis Andrade, da Silva Messias, Sarah Giarola, de Faria Gonçalves, Ana Paula, Kano, Flora Satiko, Alves, Pedro Augusto, da Silva Campos, Marco Antônio, Xavier, Marcelo Pascoal, Garcia, Cristiana Couto, Russo, Remo Castro, Gazzinelli, Ricardo Tostes, Costa, Érica Azevedo, da Silva Martins, Nelson Rodrigo, Miyaji, Eliane Namie, de Magalhães Vieira Machado, Alexandre, Silva Araújo, Márcio Sobreira
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Sprache:	eng
Schlagworte:	631/61/24/590 692/699/255/1578 Antibodies Bacterial diseases Biomedical and Life Sciences Biomedicine Chickens Eggs Genetics Immunization Infectious Diseases Influenza Medical Microbiology Production costs Proteins Public Health Streptococcus infections Vaccine Vaccines Virology
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creator	Cardoso, Kimberly Freitas de Souza, Lara Regina Alves da Silva Santos, Beatriz Senra Álvares de Carvalho, Ketyllen Reis Andrade da Silva Messias, Sarah Giarola de Faria Gonçalves, Ana Paula Kano, Flora Satiko Alves, Pedro Augusto da Silva Campos, Marco Antônio Xavier, Marcelo Pascoal Garcia, Cristiana Couto Russo, Remo Castro Gazzinelli, Ricardo Tostes Costa, Érica Azevedo da Silva Martins, Nelson Rodrigo Miyaji, Eliane Namie de Magalhães Vieira Machado, Alexandre Silva Araújo, Márcio Sobreira
description	Streptococcus pneumoniae and influenza A virus (IAV) are significant agents of pneumonia cases and severe respiratory infections globally. Secondary bacterial infections, particularly by Streptococcus pneumoniae , are common in IAV-infected individuals, leading to critical outcomes. Despite reducing mortality, pneumococcal vaccines have high production costs and are serotype specific. The emergence of new circulating serotypes has led to the search for new prevention strategies that provide a broad spectrum of protection. In this context, vaccination using antigens present in all serotypes, such as Pneumococcal Surface Protein A (PspA), can offer broad coverage regardless of serotype. Employing the reverse genetics technique, our research group developed a recombinant influenza A H1N1 virus that expresses PspA (Flu-PspA), through the replacement of neuraminidase by PspA. This virus was evaluated as a bivalent vaccine against infections caused by influenza A and S. pneumoniae in mice. Initially, we evaluated the Flu-PspA virus’s ability to infect cells and express PspA in vitro, its capacity to multiply in embryonated chicken eggs, and its safety when inoculated in mice. Subsequently, the protective effect against influenza A and Streptococcus pneumoniae lethal challenge infections in mice was assessed using different immunization protocols. Analysis of the production of antibodies against PspA4 protein and influenza, and the binding capacity of anti-PspA4 antibodies/complement deposition to different strains of S. pneumoniae were also evaluated. Our results demonstrate that the Flu-PspA virus vaccine efficiently induces PspA protein expression in vitro, and that it was able to multiply in embryonated chicken eggs even without exogenous neuraminidase. The Flu-PspA-based bivalent vaccine was demonstrated to be safe, stimulated high titers of anti-PspA and anti-influenza antibodies, and protected mice against homosubtypic and heterosubtypic influenza A and S. pneumoniae challenge. Moreover, an efficient binding of antibodies and complement deposition on the surface of pneumococcal strains ascribes the broad-spectrum vaccine response in vivo. In summary, this innovative approach holds promise for developing a dual-protective vaccine against two major respiratory pathogens.
doi_str_mv	10.1038/s41541-024-01033-5
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Secondary bacterial infections, particularly by Streptococcus pneumoniae , are common in IAV-infected individuals, leading to critical outcomes. Despite reducing mortality, pneumococcal vaccines have high production costs and are serotype specific. The emergence of new circulating serotypes has led to the search for new prevention strategies that provide a broad spectrum of protection. In this context, vaccination using antigens present in all serotypes, such as Pneumococcal Surface Protein A (PspA), can offer broad coverage regardless of serotype. Employing the reverse genetics technique, our research group developed a recombinant influenza A H1N1 virus that expresses PspA (Flu-PspA), through the replacement of neuraminidase by PspA. This virus was evaluated as a bivalent vaccine against infections caused by influenza A and S. pneumoniae in mice. Initially, we evaluated the Flu-PspA virus’s ability to infect cells and express PspA in vitro, its capacity to multiply in embryonated chicken eggs, and its safety when inoculated in mice. Subsequently, the protective effect against influenza A and Streptococcus pneumoniae lethal challenge infections in mice was assessed using different immunization protocols. Analysis of the production of antibodies against PspA4 protein and influenza, and the binding capacity of anti-PspA4 antibodies/complement deposition to different strains of S. pneumoniae were also evaluated. Our results demonstrate that the Flu-PspA virus vaccine efficiently induces PspA protein expression in vitro, and that it was able to multiply in embryonated chicken eggs even without exogenous neuraminidase. The Flu-PspA-based bivalent vaccine was demonstrated to be safe, stimulated high titers of anti-PspA and anti-influenza antibodies, and protected mice against homosubtypic and heterosubtypic influenza A and S. pneumoniae challenge. Moreover, an efficient binding of antibodies and complement deposition on the surface of pneumococcal strains ascribes the broad-spectrum vaccine response in vivo. 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Initially, we evaluated the Flu-PspA virus’s ability to infect cells and express PspA in vitro, its capacity to multiply in embryonated chicken eggs, and its safety when inoculated in mice. Subsequently, the protective effect against influenza A and Streptococcus pneumoniae lethal challenge infections in mice was assessed using different immunization protocols. Analysis of the production of antibodies against PspA4 protein and influenza, and the binding capacity of anti-PspA4 antibodies/complement deposition to different strains of S. pneumoniae were also evaluated. Our results demonstrate that the Flu-PspA virus vaccine efficiently induces PspA protein expression in vitro, and that it was able to multiply in embryonated chicken eggs even without exogenous neuraminidase. The Flu-PspA-based bivalent vaccine was demonstrated to be safe, stimulated high titers of anti-PspA and anti-influenza antibodies, and protected mice against homosubtypic and heterosubtypic influenza A and S. pneumoniae challenge. Moreover, an efficient binding of antibodies and complement deposition on the surface of pneumococcal strains ascribes the broad-spectrum vaccine response in vivo. 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Vaccines</stitle><addtitle>NPJ Vaccines</addtitle><date>2024-12-19</date><risdate>2024</risdate><volume>9</volume><issue>1</issue><spage>246</spage><pages>246-</pages><issn>2059-0105</issn><eissn>2059-0105</eissn><abstract>Streptococcus pneumoniae and influenza A virus (IAV) are significant agents of pneumonia cases and severe respiratory infections globally. Secondary bacterial infections, particularly by Streptococcus pneumoniae , are common in IAV-infected individuals, leading to critical outcomes. Despite reducing mortality, pneumococcal vaccines have high production costs and are serotype specific. The emergence of new circulating serotypes has led to the search for new prevention strategies that provide a broad spectrum of protection. In this context, vaccination using antigens present in all serotypes, such as Pneumococcal Surface Protein A (PspA), can offer broad coverage regardless of serotype. Employing the reverse genetics technique, our research group developed a recombinant influenza A H1N1 virus that expresses PspA (Flu-PspA), through the replacement of neuraminidase by PspA. This virus was evaluated as a bivalent vaccine against infections caused by influenza A and S. pneumoniae in mice. Initially, we evaluated the Flu-PspA virus’s ability to infect cells and express PspA in vitro, its capacity to multiply in embryonated chicken eggs, and its safety when inoculated in mice. Subsequently, the protective effect against influenza A and Streptococcus pneumoniae lethal challenge infections in mice was assessed using different immunization protocols. Analysis of the production of antibodies against PspA4 protein and influenza, and the binding capacity of anti-PspA4 antibodies/complement deposition to different strains of S. pneumoniae were also evaluated. Our results demonstrate that the Flu-PspA virus vaccine efficiently induces PspA protein expression in vitro, and that it was able to multiply in embryonated chicken eggs even without exogenous neuraminidase. The Flu-PspA-based bivalent vaccine was demonstrated to be safe, stimulated high titers of anti-PspA and anti-influenza antibodies, and protected mice against homosubtypic and heterosubtypic influenza A and S. pneumoniae challenge. Moreover, an efficient binding of antibodies and complement deposition on the surface of pneumococcal strains ascribes the broad-spectrum vaccine response in vivo. In summary, this innovative approach holds promise for developing a dual-protective vaccine against two major respiratory pathogens.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>39702744</pmid><doi>10.1038/s41541-024-01033-5</doi><orcidid>https://orcid.org/0000-0002-9659-5621</orcidid><orcidid>https://orcid.org/0000-0003-0770-0723</orcidid><orcidid>https://orcid.org/0000-0002-7532-3360</orcidid><orcidid>https://orcid.org/0000-0002-9779-4470</orcidid><orcidid>https://orcid.org/0000-0002-1715-3834</orcidid><oa>free_for_read</oa></addata></record>
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subjects	631/61/24/590 692/699/255/1578 Antibodies Bacterial diseases Biomedical and Life Sciences Biomedicine Chickens Eggs Genetics Immunization Infectious Diseases Influenza Medical Microbiology Production costs Proteins Public Health Streptococcus infections Vaccine Vaccines Virology
title	Intranasal influenza-vectored vaccine expressing pneumococcal surface protein A protects against Influenza and Streptococcus pneumoniae infections
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