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Intranasal Vaccination With Lipoproteins Confers Protection Against Pneumococcal Colonisation
(2018)
Streptococcus pneumoniae is endowed with a variety of surface-exposed proteins representing putative vaccine candidates. Lipoproteins are covalently anchored to the cell membrane and highly conserved among pneumococcal serotypes. Here, we evaluated these lipoproteins for their immunogenicity and protective potential against pneumococcal colonisation. A multiplex-based immunoproteomics approach revealed the immunogenicity of selected lipoproteins. High antibody titres were measured in sera from mice immunised with the lipoproteins MetQ, PnrA, PsaA, and DacB. An analysis of convalescent patient sera confirmed the immunogenicity of these lipoproteins. Examining the surface localisation and accessibility of the lipoproteins using flow cytometry indicated that PnrA and DacB were highly abundant on the surface of the bacteria. Mice were immunised intranasally with PnrA, DacB, and MetQ using cholera toxin subunit B (CTB) as an adjuvant, followed by an intranasal challenge with S. pneumoniae D39. PnrA protected the mice from pneumococcal colonisation. For the immunisation with DacB and MetQ, a trend in reducing the bacterial load could be observed, although this effect was not statistically significant. The reduction in bacterial colonisation was correlated with the increased production of antigen-specific IL-17A in the nasal cavity. Immunisation induced high systemic IgG levels with a predominance for the IgG1 isotype, except for DacB, where IgG levels were substantially lower compared to MetQ and PnrA. Our results indicate that lipoproteins are interesting targets for future vaccine strategies as they are highly conserved, abundant, and immunogenic.
Streptococcus pneumoniaeinfections lead to high morbidity and mortality rates worldwide.Pneumococcal polysaccharide conjugate vaccines significantly reduce the burden of disease but havea limited range of protection, which encourages the development of a broadly protective protein-basedalternative. We and others have shown that immunization with pneumococcal lipoproteins that lackthe lipid anchor protects against colonization. Since immunity againstS. pneumoniaeis mediatedthrough Toll-like receptor 2 signaling induced by lipidated proteins, we investigated the effects ofa lipid modification on the induced immune responses in either intranasally or subcutaneouslyvaccinated mice. Here, we demonstrate that lipidation of recombinant lipoproteins DacB and PnrAstrongly improves their immunogenicity. Mice immunized with lipidated proteins showed enhancedantibody concentrations and different induction kinetics. The induced humoral immune responsewas modulated by lipidation, indicated by increased IgG2/IgG1 subclass ratios related to Th1-typeimmunity. In a mouse model of colonization, immunization with lipidated antigens led to a moderatebut consistent reduction of pneumococcal colonization as compared to the non-lipidated proteins,indicating that protein lipidation can improve the protective capacity of the coupled antigen. Thus,protein lipidation represents a promising approach for the development of a serotype-independentpneumococcal vaccine.