Publications

Antibodies Reactive to Commensal Streptococcus mitis Show Cross-Reactivity With Virulent Streptococcus pneumoniae Serotypes

Shekhar S, Khan R, Ferreira DM, Mitsi E, German E, Rørvik GH, Berild D, Schenck K, Kwon K, Petersen F

PMID: 29713324

Abstract

Current vaccines against , a bacterial species that afflicts people by causing a wide spectrum of diseases, do not protect against all pneumococcal serotypes. Thus, alternative vaccines to fight pneumococcal infections that target common proteins are under investigation. One promising strategy is to take advantage of immune cross-reactivity between commensal and pathogenic microbes for cross-protection. In this study, we examined the antibody-mediated cross-reactivity between and , a commensal species closely related to . Western blot analysis showed that rabbit antisera raised against reacted with multiple proteins of virulent strains (6B, TIGR4, and D39). Rabbit anti- IgG antibodies also showed binding to antigens. Incubation of rabbit antisera raised against with heterologous or homologous bacterial lysates resulted in marked inhibition of the developments of bands in the Western blots. Furthermore, plasma IgG antibodies from adult human volunteers intranasally inoculated with 6B revealed enhanced -specific IgG titers compared with the pre-inoculation samples. Using an on-chip protein microarray representing a number of selected membrane and extracellular proteins, we identified choline-binding protein D (CbpD), cell division protein (FtsH), and manganese ABC transporter or manganese-binding adhesion lipoprotein (PsaA) as common targets of the rabbit IgG antibodies raised against or . Cumulatively, these findings provide evidence on the antibody-mediated cross-reactivity of proteins from and , which may have implications for development of effective and wide-range pneumococcal vaccines.