In Gram-positive pathogen
Staphylococcus aureus
, pore-forming toxins (PFTs) such as leukocidins and hemolysins play prominent roles in staphylococcal pathogenesis by killing host immune cells and red blood cells (RBCs). However, it remains unknown which combination of toxin antigens would induce the broadest protective immune response against those toxins. In this study, by targeting six major staphylococcal PFTs (i.e., HlgAB, HlgCB, LukAB, LukED, LukSF-PV, and Hla), we generated ten recombinant toxins or toxin-subunits, three toxoids, and their rabbit antibodies. Using the cytolytic assay for RBCs and polymorphonuclear cells (PMNs), we determined the best combination of toxin antibodies conferring the broadest protection against those staphylococcal PFTs. Although anti-HlgA IgG (HlgA-IgG) showed low cross-reactivity to other toxin components, it was essential to protect rabbit and human RBCs and human PMNs. For the protection of rabbit RBCs, Hla
H35L
toxoid-IgG was also required, whereas, for human PMNs, LukS-IgG and LukA
E323A
B-IgG were essential too. When the toxin/toxoid antigens HlgA, LukS-PV, Hla
H35L
, and LukA
E323A
B were used to immunize rabbits, they increased rabbit survival; however, they did not block staphylococcal abscess formation in kidneys. Based on these results, we proposed that the combination of HlgA, LukS, Hla
H35L
, and LukA
E323A
B is the optimal vaccine component to protect human RBCs and PMNs from staphylococcal PFTs. We also concluded that a successful
S. aureus
vaccine requires not only those toxin antigens but also other antigens that can induce immune response blocking staphylococcal colonization.
