Abstract
Acinetobacter baumannii, a common nosocomial pathogen, is known for its rapid acquisition of antimicrobial resistance, underscoring the urgent need to develop an effective vaccine against this pathogen. Outer membrane protein 22 (Omp22) regulates the biogenesis of outer membrane vesicles to transport virulence-promoting factors into the host cells and facilitates the progression of A. baumannii infection. In this study, we used a mouse sepsis model to assess the immunogenicity and protective efficacy of a vaccine using recombinant Omp22 protein within the hypervariable region of flagellin (FliC-Omp22). FliC-Omp22 demonstrated superior protection following challenge with a lethal dose of multidrug-resistant (MDR) A. baumannii strain 58ST compared to Omp22 alone. In addition, it elicited increased IgG1/IgG2a and IL-4/IFN-γ ratios, indicating a predominant Th2 immune response. Furthermore, FliC-Omp22 vaccination elicited strong specific antibodies that inhibited the adhesion and invasion of A. baumannii 58ST and enhanced the opsonic killing activity against the pathogen. FliC-Omp22 immunization significantly reduced bacterial loads in the spleen, lungs, and liver of infected mice, thereby improving their survival against sepsis induced by MDR A. baumannii 58ST. This study suggests that integrating Omp22 into the hypervariable domain of flagellin holds promise for developing an effective vaccine against A. baumannii infections.