A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia

Bacterial superantigens (SAg) stimulate T-cell hyper-activation resulting in immune modulation and severe systemic illnesses such as Staphylococcus aureus toxic shock syndrome. However, all known S. aureus SAgs are encoded by mobile genetic elements and are made by only a proportion of strains. Here...

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Autores principales: Wilson, Gillian J., Seo, Keun Seok, Cartwright, Robyn A., Connelley, Timothy, Chuang-Smith, Olivia N., Merriman, Joseph A., Guinane, Caitriona M., Park, Joo Youn, Bohach, Gregory A., Schlievert, Patrick M., Morrison, W. Ivan, Fitzgerald, J. Ross
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3192841/
https://www.ncbi.nlm.nih.gov/pubmed/22022262
http://dx.doi.org/10.1371/journal.ppat.1002271
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author Wilson, Gillian J.
Seo, Keun Seok
Cartwright, Robyn A.
Connelley, Timothy
Chuang-Smith, Olivia N.
Merriman, Joseph A.
Guinane, Caitriona M.
Park, Joo Youn
Bohach, Gregory A.
Schlievert, Patrick M.
Morrison, W. Ivan
Fitzgerald, J. Ross
author_facet Wilson, Gillian J.
Seo, Keun Seok
Cartwright, Robyn A.
Connelley, Timothy
Chuang-Smith, Olivia N.
Merriman, Joseph A.
Guinane, Caitriona M.
Park, Joo Youn
Bohach, Gregory A.
Schlievert, Patrick M.
Morrison, W. Ivan
Fitzgerald, J. Ross
author_sort Wilson, Gillian J.
collection PubMed
description Bacterial superantigens (SAg) stimulate T-cell hyper-activation resulting in immune modulation and severe systemic illnesses such as Staphylococcus aureus toxic shock syndrome. However, all known S. aureus SAgs are encoded by mobile genetic elements and are made by only a proportion of strains. Here, we report the discovery of a novel SAg staphylococcal enterotoxin-like toxin X (SElX) encoded in the core genome of 95% of phylogenetically diverse S. aureus strains from human and animal infections, including the epidemic community-associated methicillin-resistant S. aureus (CA-MRSA) USA300 clone. SElX has a unique predicted structure characterized by a truncated SAg B-domain, but exhibits the characteristic biological activities of a SAg including Vβ-specific T-cell mitogenicity, pyrogenicity and endotoxin enhancement. In addition, SElX is expressed by clinical isolates in vitro, and during human, bovine, and ovine infections, consistent with a broad role in S. aureus infections of multiple host species. Phylogenetic analysis suggests that the selx gene was acquired horizontally by a progenitor of the S. aureus species, followed by allelic diversification by point mutation and assortative recombination resulting in at least 17 different alleles among the major pathogenic clones. Of note, SElX variants made by human- or ruminant-specific S. aureus clones demonstrated overlapping but distinct Vβ activation profiles for human and bovine lymphocytes, indicating functional diversification of SElX in different host species. Importantly, SElX made by CA-MRSA USA300 contributed to lethality in a rabbit model of necrotizing pneumonia revealing a novel virulence determinant of CA-MRSA disease pathogenesis. Taken together, we report the discovery and characterization of a unique core genome-encoded superantigen, providing new insights into the evolution of pathogenic S. aureus and the molecular basis for severe infections caused by the CA-MRSA USA300 epidemic clone.
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spelling pubmed-31928412011-10-21 A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia Wilson, Gillian J. Seo, Keun Seok Cartwright, Robyn A. Connelley, Timothy Chuang-Smith, Olivia N. Merriman, Joseph A. Guinane, Caitriona M. Park, Joo Youn Bohach, Gregory A. Schlievert, Patrick M. Morrison, W. Ivan Fitzgerald, J. Ross PLoS Pathog Research Article Bacterial superantigens (SAg) stimulate T-cell hyper-activation resulting in immune modulation and severe systemic illnesses such as Staphylococcus aureus toxic shock syndrome. However, all known S. aureus SAgs are encoded by mobile genetic elements and are made by only a proportion of strains. Here, we report the discovery of a novel SAg staphylococcal enterotoxin-like toxin X (SElX) encoded in the core genome of 95% of phylogenetically diverse S. aureus strains from human and animal infections, including the epidemic community-associated methicillin-resistant S. aureus (CA-MRSA) USA300 clone. SElX has a unique predicted structure characterized by a truncated SAg B-domain, but exhibits the characteristic biological activities of a SAg including Vβ-specific T-cell mitogenicity, pyrogenicity and endotoxin enhancement. In addition, SElX is expressed by clinical isolates in vitro, and during human, bovine, and ovine infections, consistent with a broad role in S. aureus infections of multiple host species. Phylogenetic analysis suggests that the selx gene was acquired horizontally by a progenitor of the S. aureus species, followed by allelic diversification by point mutation and assortative recombination resulting in at least 17 different alleles among the major pathogenic clones. Of note, SElX variants made by human- or ruminant-specific S. aureus clones demonstrated overlapping but distinct Vβ activation profiles for human and bovine lymphocytes, indicating functional diversification of SElX in different host species. Importantly, SElX made by CA-MRSA USA300 contributed to lethality in a rabbit model of necrotizing pneumonia revealing a novel virulence determinant of CA-MRSA disease pathogenesis. Taken together, we report the discovery and characterization of a unique core genome-encoded superantigen, providing new insights into the evolution of pathogenic S. aureus and the molecular basis for severe infections caused by the CA-MRSA USA300 epidemic clone. Public Library of Science 2011-10-13 /pmc/articles/PMC3192841/ /pubmed/22022262 http://dx.doi.org/10.1371/journal.ppat.1002271 Text en Wilson et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Wilson, Gillian J.
Seo, Keun Seok
Cartwright, Robyn A.
Connelley, Timothy
Chuang-Smith, Olivia N.
Merriman, Joseph A.
Guinane, Caitriona M.
Park, Joo Youn
Bohach, Gregory A.
Schlievert, Patrick M.
Morrison, W. Ivan
Fitzgerald, J. Ross
A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia
title A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia
title_full A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia
title_fullStr A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia
title_full_unstemmed A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia
title_short A Novel Core Genome-Encoded Superantigen Contributes to Lethality of Community-Associated MRSA Necrotizing Pneumonia
title_sort novel core genome-encoded superantigen contributes to lethality of community-associated mrsa necrotizing pneumonia
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3192841/
https://www.ncbi.nlm.nih.gov/pubmed/22022262
http://dx.doi.org/10.1371/journal.ppat.1002271
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