Investigation of pneumococcal virulence factors in the infection process

Abstract

This review summarizes current knowledge regarding the pathological mechanism of Streptococcus pneumoniae, a major cause of pneumonia, sepsis, and meningitis, with focus on our previously presented studies.To identify pneumococcal adhesins or invasins on cell surfaces, we investigated several proteins with an LPXTG anchoring motif and identified one showing interaction with human fibronectin, which was designated PfbA. Next, the mechanism of pneumococcal evasion form host immunity system in blood was examined and pneumococcal α-Enolase was found to function as a neutrophil extracellular trap induction factor. Although S. pneumoniae organisms are partially killed by iron ion-induced free radicals, they have an ability to invade red blood cells and then evade antibiotics, neutrophil phagocytosis, and H2O2 killing. In addition, our findings have indicated that zinc metalloprotease ZmpC suppresses pneumococcal virulence by inhibiting bacterial invasion of the central nervous system. Since evolutionarily conserved virulence factors are potential candidate therapeutic targets, we performed molecular evolutionary analyses, which revealed that cbpJ had the highest rate of codons under negative selection to total number of codons among genes encoding choline-binding proteins. Our experimental analysis results indicated that CbpJ functions as a virulence factor in pneumococcal pneumonia by contributing to evasion of neutrophil killing.Use of a molecular biological approach based on bacterial genome sequences, clinical disease states, and molecular evolutionary analysis is an effective strategy for revealing virulence factors and important therapeutic targets.