Capsular polysaccharides are an important immune evasion mechanism for Staphylococcus aureus.

Staphylococcus aureus can cause severe life threatening invasive diseases. The principal immune effector mechanism by which humans are protected from Gram positive bacteria such as S. aureus is antigen specific antibody- and complement-dependent opsonophagocytosis. This process can be measured in vitro using the opsonophagocytic antibody assay (OPA), which is a complex assay composed of live S. aureus bacteria, a complement source, phagocytic effector cells such as differentiated HL-60 cells, and test serum. In this report, we investigated the impact on the OPA of S. aureus surface antigens capsular polysaccharides (CP) and protein A (SpA). We demonstrated that higher CP expression renders bacteria more resistant to non-specific opsonophagocytic killing than increased SpA expression, suggesting that the expression of capsular polysaccharides may be the more important immune evasion strategy for S. aureus. Bacteria that were not fully encapsulated were highly susceptible to non-specific killing in the assay in the absence of immune serum. This non-specific killing was prevented by growing the bacteria under conditions that increased capsular polysaccharide levels on the surface of the bacteria. In contrast, the level of SpA expression had no detectable effect on non-specific killing in OPA. Using anti-CP antibodies we demonstrated type-specific killing in OPA of both MRSA and MSSA clinical isolates. SpA expression on the cell surface did not interfere with OPA activity, providing evidence that despite the role of SpA in sequestering antibodies by their Fc region, killing is easily accomplished in the presence of high titered anti-capsular polysaccharide antibodies. This highlights the role of CP as an important immune evasion mechanism and supports the inclusion of capsular polysaccharide antigens in the formulation of multi-component prophylactic vaccines against S. aureus.

Heterogeneous in vivo expression of clumping factor A and capsular polysaccharide by Staphylococcus aureus: implications for vaccine design.

There is a clear unmet medical need for a vaccine that would prevent infections from Staphylococcus aureus (S. aureus). To validate antigens as potential vaccine targets it has to be demonstrated that the antigens are expressed in vivo. Using murine bacteremia and wound infection models, we demonstrate that the expression of clumping factor A (ClfA) and capsular polysaccharide antigens are heterogeneous and dependent on the challenge strains examined and the in vivo microenvironment. We also demonstrate opsonophagocitic activity mediated by either antigen is not impeded by the presence of the other antigen. The data presented in this report support a multiantigen approach for the development of a prophylactic S. aureus vaccine to ensure broad coverage against this versatile pathogen.