BauA and Omp34 surface loops trigger protective antibodies against Acinetobacter baumannii in a murine sepsis model

Abstract

The complexity of treating Acinetobacter baumannii infections with the newly developed resistant strains has led researchers to confront this pathogen by developing vaccines. In this study, we used two important virulence factors of A. baumannii to elicit immunity against the A. baumannii. The immunogenic loops were from Baumannii acinetobactin utilization A (BauA) and 34kD outer membrane protein (Omp34). C-lobe derivative of the TbpB surface lipoprotein was used to display the superficial epitopes of the TbpA receptor protein of Neisseria meningitidis. The resulting loopless C-lobe (LCL) with implanted nucleotide sequences of the immunogenic loops from BauA and Omp34 was used as a hybrid antigen. The hybrid antigens were expressed in the E. coli and were used to immunize mice. The mice were challenged with a clinical isolate of A. baumannii (ABI022). Immunization with the hybrid antigens of the BauA loop 7 (BauAL7P3), Omp34 loop 3 Omp34L3P1, and the combination of both loops (BauAL7P3Omp34L3P1) brought about 42.86%, 42.86%, and 71.43% protection against A. baumannii infection. Histopathological findings in the immunized mice showed bronchioles clear from inflammatory cells and normal texture of the spleen and liver. The findings support the use of a multivalent vaccine to induce broadly reactive antibody responses against heterologous A. baumannii strains.