Generation of two auxotrophic genes knock-out Edwardsiella tarda and assessment of its potential as a combined vaccine in olive flounder ( Paralichthys olivaceus)

Abstract

Two auxotrophic genes that play essential roles in bacterial cell wall biosynthesis – alanine racemase ( alr) gene and aspartate semialdehyde dehydrogenase ( asd) gene – knock-out Edwardsiella tarda ( Δalr Δasd E. tarda) was generated by the allelic exchange method to develop a combined vaccine system. Green fluorescent protein (GFP) was used as a model foreign protein, and was expressed by transformation of the mutant E. tarda with antibiotic resistant gene-free plasmids harboring cassettes for GFP and asd expression (pG02-ASD-EtPR-GFP). In vitro growth of the mutant E. tarda was similar to wild-type E. tarda when d-alanine and diaminopimelic acid (DAP) were supplemented to growth medium. However, without d-alanine and/or DAP supplementation, the mutant showed very limited growth. The Δalr Δasd E. tarda transformed with pG02-ASD-EtPR-GFP showed a similar growth pattern of wild-type E. tarda when d-alanine was supplemented in the medium, and the expression of GFP could be observed even with naked eyes. The virulence of the auxotrophic mutant E. tarda was decreased, which was demonstrated by approximately 10 6 fold increase of LD 50 dose compared to wild-type E. tarda. To assess vaccine potential of the present combined vaccine system, olive flounder ( Paralichthys olivaceus) were immunized with the GFP expressing mutant E. tarda, and analyzed protection efficacy against E. tarda challenge and antibody titers against E. tarda and GFP. Groups of fish immunized with 10 7 CFU of the Δalr Δasd E. tarda harboring pG02-ASD-EtPR-GFP showed no mortality, which was irrespective to boost immunization. The cumulative mortality rates of fish immunized with 10 6 or 10 5 CFU of the mutant bacteria were lowered by a boost immunization. Fish immunized with the mutant E. tarda at doses of 10 6–10 7 CFU/fish showed significantly higher serum agglutination activities against formalin-killed E. tarda than PBS-injected control fish. Furthermore, fish immunized with 10 6–10 7 CFU/fish of the mutant E. tarda showed significantly higher ELISA titer against GFP antigen than fish in other groups. These results indicate that the present double auxotrophic genes knock-out E. tarda coupled with a heterologous antigen expression has a great strategic potential to be used as combined vaccines against various fish diseases.