Development and Assessment of Intracellular Infection Models for Staphylococcus aureus.

Abstract

S. aureus can invade and persist within host cells, including immune cells, which allows it to evade immune detection and clearance. This intracellular persistence contributes to chronic and recurrent infections, complicating treatment and prolonging the disease. Consequently, there is a critical need for an intracellular infection model to better understand, prevent, and treat infections caused by S. aureus. This study indicated that antibiotics effectively eliminated extracellular bacteria but could not eradicate those that had entered the cells. Thus, a stable intracellular infection in vitro was established by RAW264.7 infected with S. aureus and co-culturing them with antibiotics. Subsequently, an intracellular infection model in mice was established by injecting peritoneal macrophages containing the intracellular infection. Vancomycin effectively cleared bacterial loads in mice challenged with planktonic S. aureus; however, it was ineffective against mice infected with equal or lower levels of intracellular bacteria within the peritoneal macrophages. This indicates that the intracellular infection model of S. aureus was successfully established, offering potential insights for the prevention and treatment of intracellular infections.