Development of a dual vaccine for prevention of Brucella abortus infection and Escherichia coli O157:H7 intestinal colonization

Zoonoses that affect human and animal health have an important economic impact. In the study now presented, a bivalent vaccine has been developed that has the potential for preventing the transmission from cattle to humans of two bacterial pathogens: Brucella abortus and Shiga toxin-producing Escherichia coli (STEC). A 66 kDa chimeric antigen, composed by EspA, Intimin, Tir, and H7 flagellin (EITH₇) from STEC, was constructed and expressed in B. abortus Δpgm vaccine strain (BabΔpgm). Mice orally immunized with BabΔpgm(EITH₇) elicited an immune response with the induction of anti-EITH₇ antibodies (IgA) that clears an intestinal infection of E. coli O157:H7 three times faster (t = 4 days) than mice immunized with BabΔpgm carrier strain (t = 12 days). As expected, mice immunized with BabΔpgm(EITH₇) strain also elicited a protective immune response against B. abortus infection. A Brucella-based vaccine platform is described capable of eliciting a combined protective immune response against two bacterial pathogens with diverse lifestyles—the intracellular pathogen B. abortus and the intestinal extracellular pathogen STEC.