Modulation of immune response and enhanced clearance of Salmonella typhi by delivery of Vi polysaccharide conjugate using PLA nanoparticles.

Abstract Polysaccharide antigens do not promote antibody class switching and memory antibody response, thus require conjugation with a T cell dependent carrier protein to generate protective immune response. The intensity of immune responses varies with the carrier proteins for the same carbohydrate antigen and most of the carrier proteins do not generate strong immune responses. Vi polysaccharide and r-flagellin of Salmonella typhi were conjugated and formulated in PLA particles as nanoglycoconjugate which not only generated strong immune response but also promoted antibody class switching and elicited memory antibody response from single point immunization. Nanoglycoconjugate immunization also modulate anti-inflammatory property of Vi polysaccharide with an enhance secretion of pro-inflammatory cytokine TNF-α and IL-6. This was with concomitant decrease of IFN-γ production, antibody class switching from IgG3 to IgG2 with memory antibody generation against Vi polysaccharide. Antibody elicited by nanoglycoconjugate showed better opsonization and clearance of Salmonella typhi in THP-1 macrophages as compared to Vi-flagellin glycoconjugate and Vi TT (Typhbar®). Delivery of glycoconjugate through nanoparticles provides a platform technology for improving the immunogenicity of polysaccharide based vaccines.