Surface display of Clonorchis sinensis enolase on Bacillus subtilis spores potentializes an oral vaccine candidate

Clonorchis sinensis (C sinensis) infections remain the common public health problem in freshwater fish consumption areas. New effective prevention strategies are still the urgent challenges to control this kind of foodborne infectious disease. The biochemical importance and biological relevance render C sinensis enolase (Csenolase) as a potential vaccine candidate. In the present study, we constructed Escherichia coli/Bacillus subtilis shuttle genetic engineering system and investigated the potential of Csenolase as an oral vaccine candidate for C sinensis prevention in different immunization routes. Our results showed that, compared with control groups, both recombinant Csenolase protein and nucleic acid could induce a mixed IgG1/IgG2a immune response when administrated subcutaneously (P<0.001), intraperitoneally (P<0.01) and intramuscularly (P<0.001) with worm reduction rate of 56.29%, 15.38% and 37.42%, respectively. More importantly, Csenolase could be successfully expressed as a fusion protein (55 kDa) on B. subtilis spore indicated by immunoblot and immunofluorescence assays. Killed spores triggered reactive Th1/Th2 immune response and exhibited protective efficacy against C sinensis infection. Csenolase derived oral vaccine conferred worm reduction rate and egg reduction rate at 60.07% (P<0.001) and 80.67% (P<0.001), respectively. The shuttle genetic engineering system facilitated the development of oral vaccine with B. subtilis stably overexpressing target protein. Comparably vaccinal trails with Csenolase in different immunization routes potentialize Csenolase an oral vaccine candidate in C sinensis prevention. (C) 2014 Elsevier Ltd. All rights reserved.