BACKGROUND: We previously reported that group A Streptococcus (GAS) pili are the T antigens described by Rebecca Lancefield. We also showed that these pili, constituted by backbone, ancillary 1, and ancillary 2 proteins, confer protection against GAS challenge in a mouse model. METHODS: We evaluated pilus distribution and conservation by sequencing the subunits of 39 new GAS isolates and used immunoblot analysis and agglutination assays to define the specificity of T sera to pilus subunits. RESULTS: GAS pili are encoded by 9 different islands within which backbone protein, ancillary protein 1, and ancillary protein 2 cluster in 15, 16, and 5 variants, respectively. Immunoblot and agglutination assays revealed that T type is determined by the backbone variant. This observation enabled us to set up a simple polymerase chain reaction assay to define the T type of GAS isolates. CONCLUSIONS: We propose the use of a tee gene sequence typing, analogous to the emm gene typing, as a valuable molecular tool that could substitute for the serological T classification of GAS strains. From our sequence analysis and from recent epidemiological data, we estimate that a vaccine comprising a combination of 12 backbone variants would protect against > 90% of currently circulating strains.
BACKGROUND: We previously reported that group A Streptococcus (GAS) pili are the T antigens described by Rebecca Lancefield. We also showed that these pili, constituted by backbone, ancillary 1, and ancillary 2 proteins, confer protection against GAS challenge in a mouse model. METHODS: We evaluated pilus distribution and conservation by sequencing the subunits of 39 new GAS isolates and used immunoblot analysis and agglutination assays to define the specificity of T sera to pilus subunits. RESULTS:GAS pili are encoded by 9 different islands within which backbone protein, ancillary protein 1, and ancillary protein 2 cluster in 15, 16, and 5 variants, respectively. Immunoblot and agglutination assays revealed that T type is determined by the backbone variant. This observation enabled us to set up a simple polymerase chain reaction assay to define the T type of GAS isolates. CONCLUSIONS: We propose the use of a tee gene sequence typing, analogous to the emm gene typing, as a valuable molecular tool that could substitute for the serological T classification of GAS strains. From our sequence analysis and from recent epidemiological data, we estimate that a vaccine comprising a combination of 12 backbone variants would protect against > 90% of currently circulating strains.
Authors: Anthony R Flores; Randall J Olsen; Concepcion Cantu; Kyler B Pallister; Fermin E Guerra; Jovanka M Voyich; James M Musser Journal: Infect Immun Date: 2017-04-21 Impact factor: 3.441
Authors: Andrea G O Manetti; Thomas Köller; Marco Becherelli; Scilla Buccato; Bernd Kreikemeyer; Andreas Podbielski; Guido Grandi; Immaculada Margarit Journal: PLoS One Date: 2010-11-05 Impact factor: 3.240
Authors: Paul G Young; Jeremy M Raynes; Jacelyn M Loh; Thomas Proft; Edward N Baker; Nicole J Moreland Journal: Infect Immun Date: 2019-05-21 Impact factor: 3.441
Authors: Paul G Young; Nicole J Moreland; Jacelyn M Loh; Anita Bell; Polly Atatoa Carr; Thomas Proft; Edward N Baker Journal: Infect Immun Date: 2014-04-28 Impact factor: 3.441