Parenteral immunization of Salmonella Typhimurium ghosts with surface-displayed Escherichia coli flagellin enhancesTLR-5 mediated activation of immune responses that protect the chicken against Salmonella infection

Abstract

The present study investigates the enhancement of immunogenicity and protection efficacy of Salmonella Typhimurium ghosts surface-displayed with FliC against chicken salmonellosis. The membrane-anchored FliC is a potential TLR-5 agonist, delivers an essential adjuvant effect for the ghost vaccine candidate. The present ghost plasmid pJHL184 construct carries a convergent dual promoter system that has the temperature-dependent induction of the phage lysis gene E and the target antigen FliC at the same time. Under permissible conditions of temperatures, less than 30 °C at the presence of 20 mM l-arabinose effectively suppresses expression of the lysis gene. Once the temperature is up-lifted to 42 °C without arabinose, cause the generation of ST ghosts expelling the cytoplasmic content. The addition of FliC adjuvant significantly enhanced the IgY response, cell-mediated immune responses, regulatory cytokine induction and subsequently enhanced protection against Salmonella challenge. Further, intramuscular immunization with ST ghosts displaying FliC induced particularly high CD8+ response demarcating its proficiency to elicit Type I immune responses. Further, ST ghosts displaying FliC caused an increase in both CD4+ and CD8+ response compared to the PBS control suggesting its capability to engage both cell-mediated and humoral immune responses essential for the elimination of Salmonella. Upon the virulent challenge, we could observe a significant reduction in challenged bacterial load on spleen, liver and cecum tissues in the ST ghosts surface-displaying FliC adjuvant. Our study suggests the biological incorporation of FliC on ST ghosts enhances vaccine immunogenic potency and acts as a safe and effective prevention strategy against chicken salmonellosis.