Diagnostic value of five Mycobacterium tuberculosis dormant highly expressed antigens in latent infections and immunogenicity assessment of a novel subunit vaccine PB2-DIMQ

Tuberculosis (TB) is the leading cause of death in global infectious diseases, and precise diagnosis and preventive intervention of latent tuberculosis Infection (LTBI) are important to end the TB epidemic. In this study, we explored the diagnostic value of five Mycobacterium tuberculosis (MTB) dormant highly expressed antigens (Rv0470c, Rv2026c, Rv2466c, Rv3334, and Rv3406) in LTBI and evaluated the immunologic efficacy of a novel subunit vaccine, PB2-DIMQ (antigen PB2:Rv0470c-Rv1846c; Adjuvant DIMQ: Liposome dimethyl dioctadecylammonium bromide [DDA] + imiquimod [IMQ]). It was found that all five antigens were generally capable of eliciting immune responses among patients with LTBI and those with active tuberculosis (ATB). Although differences in the intensity of responses were present for some antigens between the two groups, their discriminatory power in differentiating LTBI from ATB was limited (AUC = 0.6622-0.7473). Nevertheless, these antigens still hold promising potential for application in the diagnosis of MTB Infection (AUC = 0.7415-0.9556). On the Other hand, under the prime-boost strategy, the PB2-DIMQ vaccine induced a significantly stronger Th1-type immune response than BCG in a mouse model, promoting the expansion of multifunctional T cells (CD4⁺/CD8⁺ IFN-γ⁺ IL-2⁺), and enhanced in vitro Bacterial inhibition. This study provides new targets and strategies (fusion antigen PB2 + Adjuvant DIMQ) for the development of novel TB diagnostic tools and next-generation TB vaccines with important clinical translational prospects.

Diagnosis; Immunogenicity; Latent tuberculosis infection; Mycobacterium tuberculosis; Subunit vaccines.