Abstract
BACKGROUND: Mycoplasma pneumoniae (MP) is a major cause of respiratory tract infections in children and adolescents. Currently, there is no licensed vaccine, underscoring the urgent need for the development of safe and effective vaccines. OBJECTIVE: The aim of this study is to develop a recombinant subunit vaccine candidate incorporating three antigens: the P1 protein, the P40/90 complex, and a detoxified mutant of community-acquired respiratory distress syndrome toxin. The protective efficacy of this vaccine candidate was also evaluated. METHODS: Target genes were codon-optimized for expression in E. coli, and the recombinant proteins were successfully expressed and purified. The low-toxicity CARDS toxin mutant was screened based on TNF-α secretion levels in stimulated RAW264.7 cells. A three-component vaccine composed of P1, P40/90, and the mutant CARDS toxin was formulated and adjuvanted with either Al(OH)(3) alone or in combination with CpG. Mice were immunized, and immunogenicity was assessed by measuring antigen-specific IgG antibody titers. Protective efficacy was evaluated following challenge by analyzing lung histopathology, bacterial load, and inflammatory cytokine levels. RESULTS: Seven high-purity recombinant proteins were successfully produced, including P1, the P40/90 complex, wild-type CARDS toxin, and four CARDS toxin mutants (E132A, E132Q, H36A, R10A). The E132A mutant was selected due to its significantly reduced toxicity while retaining immunogenicity. The three-component vaccine effectively elicited antibody responses against each of the included antigens. After three immunizations, IgG antibody titers in all groups reached approximately 10(4). Immunized mice showed markedly reduced pulmonary pathology scores (control group: 2 or 2.67; immunized groups: 1.67, 1.33, and 0) and significantly decreased bacterial loads in lung tissue (control: 30.11 ± 10.40 cp/μL; immunized groups: 20.72 ± 4.37 cp/μL and 8.51 ± 8.32 cp/μL). Furthermore, the group receiving the alum + CpG adjuvant exhibited approximately a 10-fold higher antibody response compared with the alum-only group, indicating enhanced protective efficacy. CONCLUSIONS: The three-component candidate vaccine, MPtriV, adjuvanted with Al(OH)(3) + CpG, demonstrates promising immunogenicity, safety, and protective efficacy against Mycoplasma pneumoniae infection, providing a viable strategy and experimental foundation for the development of MP subunit vaccines.