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Targeted amino acid substitutions impair streptolysin O toxicity and group A Streptococcus virulence.

AbstractUNLABELLED:
Streptolysin O is a potent pore-forming toxin produced by group A Streptococcus. The aims of the present study were to dissect the relative contributions of different structural domains of the protein to hemolytic activity, to obtain a detoxified form of streptolysin O amenable to human vaccine formulation, and to investigate the role of streptolysin O-specific antibodies in protection against group A Streptococcus infection. On the basis of in silico structural predictions, we introduced two amino acid substitutions, one in the proline-rich domain 1 and the other in the conserved undecapeptide loop in domain 4. The resulting streptolysin O derivative showed no toxicity, was highly impaired in binding to eukaryotic cells, and was unable to form organized oligomeric structures on the cell surface. However, it was fully capable of conferring consistent protection in a murine model of group A Streptococcus infection. When we engineered a streptococcal strain to express the double-mutated streptolysin O, a drastic reduction in virulence as well as a diminished capacity to kill immune cells recruited at the infection site was observed. Furthermore, when mice immunized with the toxoid were challenged with the wild-type and mutant strains, protection only against the wild-type strain, not against the strain expressing the double-mutated streptolysin O, was obtained. We conclude that protection occurs by antibody-mediated neutralization of active toxin.
IMPORTANCE:
We present a novel example of structural design of a vaccine antigen optimized for human vaccine use. Having previously demonstrated that immunization of mice with streptolysin O elicits a protective immune response against infection with group A Streptococcus strains of different serotypes, we developed in this study a double-mutated nontoxic derivative that represents a novel tool for the development of protective vaccine formulations against this important human pathogen. Furthermore, the innovative construction of an isogenic strain expressing a functionally inactive toxin and its use in infection and opsonophagocytosis experiments allowed us to investigate the mechanism by which streptolysin O mediates protection against group A Streptococcus. Finally, the ability of this toxin to directly attack and kill host immune cells during infection was studied in an air pouch model, which allowed parallel quantification of cellular recruitment, vitality, and cytokine release at the infection site.
AuthorsEmiliano Chiarot, Cristina Faralla, Nico Chiappini, Giovanna Tuscano, Fabiana Falugi, Gabriella Gambellini, Annarita Taddei, Sabrina Capo, Elena Cartocci, Daniele Veggi, Alessia Corrado, Simona Mangiavacchi, Simona Tavarini, Maria Scarselli, Robert Janulczyk, Guido Grandi, Immaculada Margarit, Giuliano Bensi
JournalmBio (mBio) Vol. 4 Issue 1 Pg. e00387-12 (Jan 08 2013) ISSN: 2150-7511 [Electronic] United States
PMID23300245 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References
  • Antibodies, Bacterial
  • Antitoxins
  • Bacterial Proteins
  • Mutant Proteins
  • Streptolysins
  • Virulence Factors
  • streptolysin O
Topics
  • Amino Acid Substitution
  • Animals
  • Antibodies, Bacterial (blood)
  • Antitoxins (blood)
  • Bacterial Proteins (genetics, immunology, toxicity)
  • Disease Models, Animal
  • Mice
  • Models, Molecular
  • Mutant Proteins (genetics, immunology, toxicity)
  • Streptococcal Infections (immunology, microbiology, pathology, prevention & control)
  • Streptococcus pyogenes (genetics, immunology, pathogenicity)
  • Streptolysins (genetics, immunology, toxicity)
  • Survival Analysis
  • Virulence
  • Virulence Factors (genetics, immunology, toxicity)

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