Staphylococcus aureus coagulase R domain, a new evasion mechanism and vaccine target

Staphylococcus aureus has a tremendous unmet medical need, is impressively fast in acquiring antibiotic resistance, and there are no licensed vaccines on the market yet. Unfortunately, lack of known mechanisms of protection against S. aureus in humans is hindering development of efficacious vaccines. Several types of staphylococcal immune evasion mechanisms dampen effective humoral and cellular response. Indeed, S. aureus produces immune evasion factors that inhibit antibody deposition (e.g., SpA, Sbi, CP5, and CP8 in Fig. 1, B and F), complement proteins and neutrophil chemotaxis (e.g., SCIN and FLIPr in Fig. 1, D and E), and secrete several cytolytic toxins (hemolysins and leukocidins) that kill monocytes, macrophages, and neutrophils (Fig. 1 C). In this issue, Thomer et al. provide unprecedented observations on an immune evasion mechanism mediated by coagulase (Coa) that the bacterium uses to escape phagocytic killing (Fig. 1 A). Coa is known to activate host prothrombin and generates fibrin fibrils that promote clotting of human plasma and protect the pathogen against phagocytosis by immune cells. Activation of prothrombin is mediated by the N-terminal D1-D2 domain of Coa. However, this domain is highly variable and does not elicit cross-protective immune responses. By contrast, the fibrinogen C-terminal repeats region is well conserved across S. aureus strains. The authors of this study describe how the conserved C-terminal repeat domain of Coa directs fibrinogen to the bacterial surface generating a protective fibrin shield that resists opsonophagocytic clearance. The authors showed that a monoclonal antibody toward the R domain reduced bacterial burden in blood of human volunteers. This observation was obtained using a whole blood assay (WBA), which might represent an interesting alternative to the standard opsonophagocytosis assay (OPA) most commonly used as functional readout both in pre-clinical and clinical studies for vaccine development. Importantly, in the former assay no addition of ex-ogenous and heterologous sources of constituents are needed. In addition, it can be performed using human blood, as in the study commented herein, which also contains the proper native environment potentially needed for protection against the pathogen such as cytokines and different leukocytes. Altogether this study sheds new light on the importance of Coa for S. aureus pathogenesis and immunoevasion showing for the first time functional mechanisms associated with the R domain. Given that the R domain is important for the function of Coa and is conserved across different strains, it represents a promising vaccine candidate to be added to antigens in …