Salmonella flagellin is a potent carrier–adjuvant for peptide conjugate to induce peptide-specific antibody response in mice

Abstract

As an agonist to innate immune system, Salmonella flagellin has been proven to be a potent adjuvant either admixed or genetically fused with antigens and applied to a variety of vaccines against infectious diseases. However, relatively little is known about its carrier–adjuvant effect for conjugate vaccine. Conjugation is an effective approach often used to make haptens such as some peptides and polysaccharides immunogenic and in some cases used to make poor immunogens more immunogenic. In the current study, Salmonella flagellin was tested for its carrier–adjuvant effect in a peptide conjugation. The recombinant Salmonella flagellin (rFliC) purified from Escherichia coli was firstly modified by maleimide groups, then coupled with a synthetic peptide (EXP153:CDNNLVSGP) that is a B-cell epitope derived from Plasmodium falciparum exported protein-1 to generate the conjugate of EXP153–rFliC. Bioactivity assay showed that both chemical modification and conjugation did not apparently impair the TLR5-ligand activity of rFliC. EXP153–rFliC was used to immunize BALB/c mice via subcutaneous route, and the sera obtained from immunized mice were examined by ELISA and IFA. While no detectable antibody responses were induced by the peptide admixed with rFliC, the robust peptide-specific antibody responses were observed in mice immunized with the peptide conjugated to rFliC in the absence of any additional adjuvant. The immune sera induced by the conjugate recognized the native protein of malaria parasite. The data obtained from this study demonstrate the carrier–adjuvant activity of Salmonella flagellin in peptide conjugate immunization and indicate its promising application for conjugate vaccine research and development.