Evaluation of protective efficacy induced by different heterologous prime-boost strategies encoding triosephosphate isomerase against Schistosoma japonicum in mice

Background: in china,schistosomiasis japonica is a predominant zoonotic disease,and animal reservoir hosts in the environment largely sustain infections. the development of transmission-blocking veterinary vaccines is urgently needed for the prevention and efficient control of schistosomiasis. heterologous prime-boost strategy is more effective than traditional vaccination and homologous prime-boost strategies against multiple pathogens infection. in the present study,to further improve protective efficacy,we immunized mice with three types of heterologous prime-boost combinations based on our previously constructed vaccines that encode triosphate isomerase of schistosoma japonicum,tested the specific immune responses,and evaluated the protective efficacy through challenge infection in mice.methods: dna vaccine (pcdna3.1-sjtpi.opt),adenoviral vectored vaccine (radv-sjtpi.opt),and recombinant protein vaccine (rsjtpi) were prepared and three types of heterologous prime-boost combinations,including dna i.m. priming-radv i.m. boosting,radv i.m. priming-radv s.c. boosting,and radv i.m. priming-rsjtpi boosting strategies,were carried out. the specific immune responses and protective efficacies were evaluated in balb/c mice results: results show that different immune profiles and various levels of protective efficacy were elicited by using different heterologous prime-boost combinations. a synergistic effect was observed using the dna i.m. priming-radv i.m. boosting strategy; however,its protective efficacy was similar to that of radv i.m. immunization. conversely,an antagonistic effect was generated by using the rad i.m. priming-s.c. boosting strategy. however,the strategy,with radv i.m. priming- rsjtpi s.c. boosting,generated the most optimal protective efficacy and worm or egg reduction rate reaching up to 70% in a mouse model.conclusions: a suitable immunization strategy,radv i.m. priming-rsjtpi boosting strategy,was developed,which elicits a high level of protective efficacy against schistosoma japonicum infection in mice.