Alnustone inhibits Streptococcus pneumoniae virulence by targeting pneumolysin and sortase A

Abstract

AbstractStreptococcus pneumoniae (S. pneumoniae) is a significant Gram-positive opportunistic pathogen responsible for a variety of lethal infections. This bacterium accounts for more deaths from diseases than any other single pathogen worldwide. Distinctively, these symptoms arise despite effective antibiotic therapy. This study unveiled a novel mechanism of resistance to S. pneumoniae infection by targeting pneumolysin (PLY) and sortase A (Srt A), the key virulence factors of S. pneumoniae. Through protein phenotype assays, we found alnustone to be a potent drug that inhibits both PLY and Srt A. Using a PLY-mediated hemolysis assay, we found that albumin can effectively reduce Srt A peptidase activity by blocking PLY oligomerization, thereby directly inhibiting PLY-expressing cytolysis. Co-incubation of S. pneumoniae D39 Srt A with small-molecule inhibitors reduces cell wall-bound Nan A (pneumococcal-anchored surface protein Srt A), inhibits biofilm formation, and significantly reduces biomass. But more interestingly, the protective effect of invasive pneumococcal disease (IPD) on murine streptococcus pneumoniae was further demonstrated. Our study proposes a detailed bacteriostatic mechanism of pneumococcal and highlights the major translational potential of targeting circulating PLY and Srt A to protect against pneumococcal infections. Our results suggest that the antiviral strategy of directly targeting PLY and Srt A with alnustone is a promising treatment option for Streptococcus pneumoniae and that alnustone can be used as an effective inhibitor of PLY and Srt A.