ExploringPorphyromonas gingivalisPathogenesis and Antibody Pool Effect Using a Novel Mouse Reproductive Model

Abstract

ABSTRACTThis study introduces a novel animal model consisting of two phases. In phase I, Balb/c mice received three intraperitoneal injections of antibodies and two subcutaneous challenges withPorphyromonas gingivalis. The mice were divided into seven groups: G1, G2, and G3 received a single monoclonal antibody targeting the major outer membrane protein RagB ofP. gingivalisand infection; G4 was infected without antibody; G5 and G6 received a mixture of monoclonal antibodies and infection; and G7 served as the healthy control. In phase II, one male was paired with one female from the same group and one healthy female. Fertility was assessed using maximum body weight growth rate (MWGR) and alive pup rate (APR).Results indicated that the APR of neonatal mice in G5+G6 significantly lower than G1-G3 and G7 (P < 0.05). Similarly, the MWGR of G5+G6 significantly lower than G7 (P < 0.05). Notably, the APR and MWGR in G4, which received no antibody, were lower than in G7 but higher than in G5-G6. These findings suggest that a mixture of antibodies coexisting withP. gingivalisinfection leads to more detrimental reproductive damage than infection alone. The so-called Antibody Pool Effect plays a role in the pathogenesis ofP. gingivalis. Understanding the mechanisms of this immunopathological damage may provide insights into the correlation betweenP. gingivalisinfection and systemic diseases.