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A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates
BACKGROUND: Worldwide, Escherichia coli is the leading cause of neonatal Gram-negative bacterial meningitis, but full understanding of the pathogenesis of this disease is not yet achieved. Moreover, to date, no vaccine is available against bacterial neonatal meningitis. METHODS: Here, we used Transp...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Elsevier
2023
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| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9900374/ https://www.ncbi.nlm.nih.gov/pubmed/36709579 http://dx.doi.org/10.1016/j.ebiom.2023.104439 |
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| author | Pons, Stéphanie Frapy, Eric Sereme, Youssouf Gaultier, Charlotte Lebreton, François Kropec, Andrea Danilchanka, Olga Schlemmer, Laura Schrimpf, Cécile Allain, Margaux Angoulvant, François Lecuyer, Hervé Bonacorsi, Stéphane Aschard, Hugues Sokol, Harry Cywes-Bentley, Colette Mekalanos, John J. Guillard, Thomas Pier, Gerald B. Roux, Damien Skurnik, David |
| author_facet | Pons, Stéphanie Frapy, Eric Sereme, Youssouf Gaultier, Charlotte Lebreton, François Kropec, Andrea Danilchanka, Olga Schlemmer, Laura Schrimpf, Cécile Allain, Margaux Angoulvant, François Lecuyer, Hervé Bonacorsi, Stéphane Aschard, Hugues Sokol, Harry Cywes-Bentley, Colette Mekalanos, John J. Guillard, Thomas Pier, Gerald B. Roux, Damien Skurnik, David |
| author_sort | Pons, Stéphanie |
| collection | PubMed |
| description | BACKGROUND: Worldwide, Escherichia coli is the leading cause of neonatal Gram-negative bacterial meningitis, but full understanding of the pathogenesis of this disease is not yet achieved. Moreover, to date, no vaccine is available against bacterial neonatal meningitis. METHODS: Here, we used Transposon Sequencing of saturated banks of mutants (TnSeq) to evaluate E. coli K1 genetic fitness in murine neonatal meningitis. We identified E. coli K1 genes encoding for factors important for systemic dissemination and brain infection, and focused on products with a likely outer-membrane or extra-cellular localization, as these are potential vaccine candidates. We used in vitro and in vivo models to study the efficacy of active and passive immunization. RESULTS: We selected for further study the conserved surface polysaccharide Poly-β-(1-6)-N-Acetyl Glucosamine (PNAG), as a strong candidate for vaccine development. We found that PNAG was a virulence factor in our animal model. We showed that both passive and active immunization successfully prevented and/or treated meningitis caused by E. coli K1 in neonatal mice. We found an excellent opsonophagocytic killing activity of the antibodies to PNAG and in vitro these antibodies were also able to decrease binding, invasion and crossing of E. coli K1 through two blood brain barrier cell lines. Finally, to reinforce the potential of PNAG as a vaccine candidate in bacterial neonatal meningitis, we demonstrated that Group B Streptococcus, the main cause of neonatal meningitis in developed countries, also produced PNAG and that antibodies to PNAG could protect in vitro and in vivo against this major neonatal pathogen. INTERPRETATION: Altogether, these results indicate the utility of a high-throughput DNA sequencing method to identify potential immunotherapy targets for a pathogen, including in this study a potential broad-spectrum target for prevention of neonatal bacterial infections. FUNDINGS: ANR Seq-N-Vaq, 10.13039/100001680Charles Hood Foundation, Hearst Foundation, and 10.13039/100014846Groupe Pasteur Mutualité. |
| format | Online Article Text |
| id | pubmed-9900374 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | Elsevier |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-99003742023-02-07 A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates Pons, Stéphanie Frapy, Eric Sereme, Youssouf Gaultier, Charlotte Lebreton, François Kropec, Andrea Danilchanka, Olga Schlemmer, Laura Schrimpf, Cécile Allain, Margaux Angoulvant, François Lecuyer, Hervé Bonacorsi, Stéphane Aschard, Hugues Sokol, Harry Cywes-Bentley, Colette Mekalanos, John J. Guillard, Thomas Pier, Gerald B. Roux, Damien Skurnik, David eBioMedicine Articles BACKGROUND: Worldwide, Escherichia coli is the leading cause of neonatal Gram-negative bacterial meningitis, but full understanding of the pathogenesis of this disease is not yet achieved. Moreover, to date, no vaccine is available against bacterial neonatal meningitis. METHODS: Here, we used Transposon Sequencing of saturated banks of mutants (TnSeq) to evaluate E. coli K1 genetic fitness in murine neonatal meningitis. We identified E. coli K1 genes encoding for factors important for systemic dissemination and brain infection, and focused on products with a likely outer-membrane or extra-cellular localization, as these are potential vaccine candidates. We used in vitro and in vivo models to study the efficacy of active and passive immunization. RESULTS: We selected for further study the conserved surface polysaccharide Poly-β-(1-6)-N-Acetyl Glucosamine (PNAG), as a strong candidate for vaccine development. We found that PNAG was a virulence factor in our animal model. We showed that both passive and active immunization successfully prevented and/or treated meningitis caused by E. coli K1 in neonatal mice. We found an excellent opsonophagocytic killing activity of the antibodies to PNAG and in vitro these antibodies were also able to decrease binding, invasion and crossing of E. coli K1 through two blood brain barrier cell lines. Finally, to reinforce the potential of PNAG as a vaccine candidate in bacterial neonatal meningitis, we demonstrated that Group B Streptococcus, the main cause of neonatal meningitis in developed countries, also produced PNAG and that antibodies to PNAG could protect in vitro and in vivo against this major neonatal pathogen. INTERPRETATION: Altogether, these results indicate the utility of a high-throughput DNA sequencing method to identify potential immunotherapy targets for a pathogen, including in this study a potential broad-spectrum target for prevention of neonatal bacterial infections. FUNDINGS: ANR Seq-N-Vaq, 10.13039/100001680Charles Hood Foundation, Hearst Foundation, and 10.13039/100014846Groupe Pasteur Mutualité. Elsevier 2023-01-27 /pmc/articles/PMC9900374/ /pubmed/36709579 http://dx.doi.org/10.1016/j.ebiom.2023.104439 Text en © 2023 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). |
| spellingShingle | Articles Pons, Stéphanie Frapy, Eric Sereme, Youssouf Gaultier, Charlotte Lebreton, François Kropec, Andrea Danilchanka, Olga Schlemmer, Laura Schrimpf, Cécile Allain, Margaux Angoulvant, François Lecuyer, Hervé Bonacorsi, Stéphane Aschard, Hugues Sokol, Harry Cywes-Bentley, Colette Mekalanos, John J. Guillard, Thomas Pier, Gerald B. Roux, Damien Skurnik, David A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| title | A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| title_full | A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| title_fullStr | A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| title_full_unstemmed | A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| title_short | A high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| title_sort | high-throughput sequencing approach identifies immunotherapeutic targets for bacterial meningitis in neonates |
| topic | Articles |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9900374/ https://www.ncbi.nlm.nih.gov/pubmed/36709579 http://dx.doi.org/10.1016/j.ebiom.2023.104439 |
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