RESUMO
BACKGROUND: Given the role of spA as a pivotal virulence factor decisive for Staphylococcus aureus ability to escape from innate and adaptive immune responses, one can consider it as an object subject to adaptive evolution and that variations in spA may uncover pathogenicity variations. RESULTS: The population genetic structure was deduced from the extracellular domains of SpA gene sequence (domains A-E and the X-region) and compared to the MLST-analysis of 41 genetically diverse methicillin-resistant (MRSA) and methicillin-susceptible (MSSA) S. aureus strains. Incongruence between tree topologies was noticeable and in the inferred spA tree most MSSA isolates were clustered in a distinct group. Conversely, the distribution of strains according to their spA-type was not always congruent with the tree inferred from the complete spA gene foreseeing that spA is a mosaic gene composed of different segments exhibiting different evolutionary histories. Evidences of a network-like organization were identified through several conflicting phylogenetic signals and indeed several intragenic recombination events (within subdomains of the gene) were detected within and between CC's of MRSA strains. The alignment of SpA sequences enabled the clustering of several isoforms as a result of non-randomly distributed amino acid variations, located in two clusters of polymorphic sites in domains D to B and Xr (a). Nevertheless, evidences of cluster specific structural arrangements were detected reflecting alterations on specific residues with potential impact on S. aureus pathogenicity. CONCLUSIONS: The detection of positive selection operating on spA combined with frequent non-synonymous mutations, domain duplication and frequent intragenic recombination events represent important mechanisms acting in the evolutionary adaptive mechanism promoting spA genetic plasticity. These findings argue that crucial allelic forms correlated with pathogenicity can be identified by sequences analysis enabling the design of more robust schemes.
Assuntos
Proteína Estafilocócica A/genética , Staphylococcus aureus/genética , Técnicas de Tipagem Bacteriana/métodos , Sequência de Bases , Evolução Molecular , Staphylococcus aureus Resistente à Meticilina/genética , Tipagem Molecular , Família Multigênica , Tipagem de Sequências Multilocus , Mutação , Filogenia , Isoformas de Proteínas , Recombinação Genética , Proteína Estafilocócica A/química , Fatores de Virulência/genéticaRESUMO
The rationale of this study was to use several immunological assays to investigate the reactivity of immunoglobulin binding protein (IBP) to immunoglobulins from various avian and mammalian species. The IBP studied were Staphylococcal protein A (SpA), Streptococcal protein G (SpG), Peptostreptococcal protein L (SpL) and recombinant protein LA (SpLA). The various immunological techniques used were double immunodiffusion (Ouchterlony technique) that tested positive high protein reactivities, direct and competitive enzyme-linked immunosorbent assays (ELISAs) that tested moderate and low positive protein binding capacities, respectively. In addition to sandwich ELISAs, immunoblot analyses and Ig-purification by SpA-affinity chromatography, which were sensitive tests and helpful in the screening and confirmatory tests were also used. The Ouchterlony technique showed that compared to the other proteins, SpLA had the highest range of reactivity with animal sera and purified immunoglobulins while SpL was least reactive. With the direct ELISA, SpL reacted with the raccoon sera, rabbit IgG and with IgY from bantam hens and pigeons. While with the direct ELISA, SpA reacted with sera from skunk, coyote, raccoon, mule, donkey and human. The sandwich ELISA revealed high reactivity of both SpG and SpLA with mammalian sera titres ranging from 1:32 (raccoon serum) to 1:1024 (mule and donkey sera).These results suggest that IBP can be used for the detection of immunoglobulin using various immunological assays and this is important for the diagnosis of infectious diseases in animal and bird populations studied and in the purification of immunoglobulins.
El fundamento de este estudio radica en el uso de varios ensayos inmunológicos para investigar la reactividad de la proteína de unión de la inmunoglobulina (IBP) frente a las inmunoglobulinas de varias especies aviarias y mamíferas. Las proteínas IBP estudiadas fueron la proteína estafilocócica A (SpA), la proteína estreptocócica G (SpG), la proteína peptoestreptocócica L (SpL), y la proteína recombinante LA (SpLA). Las varias técnicas inmunológicas usadas fueron: la inmunodifusión doble (técnica de Ouchterlony) para examinar las reactividades positivas de la proteína alta; el ensayo por inmunoabsorción ligado a enzimas(ELISA), de tipo directo y competitivo, para examinar la capacidad de realizar uniones positivas de proteína moderada y baja, respectivamente, además del ensayo ELISA 'Sándwich', los análisis inmunoblot, yla purificación de IgG, mediante cromatografía de afinidad, los cuales fueron pruebas sensibles y útiles en el tamizaje y las pruebas de confirmación. La técnica de Ouchterlony mostró que - en comparación con otras proteínas - la SpLA tenía el grado más alto de reactividad con los sueros animales y las inmunoglobulinas purificadas, mientras que la SpL fue la menos reactiva. Con el ELISA directo, la SpL reaccionó con los sueros de mapache, la IgG de conejo, así como con la IgY de palomas y gallinas de Bantam, en tanto con el ELISA directo, la SpA reaccionó con sueros de mofeta, coyote, mapache, mula, asno y seres humanos. ELISA "sándwich" reveló una alta reactividad tanto de SpG como de SpLA, con títulos séricos mamíferos que iban desde 1:32 (suero de mapache) hasta 1:1024 (sueros de mula y de asno). Estos resultados sugieren que la proteína de unión IBP puede usarse en la detección de la inmunoglobulina usando varios ensayos inmunológicos, lo cual es importante para el diagnóstico de enfermedades infecciosas en las poblaciones animales y aviarias bajo estudio, así como para la purificación de inmunoglobulinas.