Pathogen-triggered activation of plasmacytoid dendritic cells induces IL-10-producing B cells in response to Staphylococcus aureus.

Induction of polyclonal B cell activation is a phenomenon observed in many types of infection, but its immunological relevance is unclear. In this study we show that staphylococcal protein A induces T cell-independent human B cell proliferation by enabling uptake of TLR-stimulating nucleic acids via the V(H)3(+) BCR. We further demonstrate that Staphylococcus aureus strains with high surface protein A expression concomitantly trigger activation of human plasmacytoid dendritic cells (pDC). Sensitivity to chloroquine, cathepsin B inhibition, and a G-rich inhibitory oligodeoxynucleotide supports the involvement of TLR9 in this context. We then identify pDC as essential cellular mediators of B cell proliferation and Ig production in response to surface protein A-bearing S. aureus. The in vivo relevancy of these findings is confirmed in a human PBMC Nod/scid(Prkdc)/γc(-/-) mouse model. Finally, we demonstrate that co-operation of pDC and B cells enhances B cell-derived IL-10 production, a cytokine associated with immunosuppression and induction of IgG4, an isotype frequently dominating the IgG response to S. aureus. IL-10 release is partially dependent on TLR2-active lipoproteins, a hallmark of the Staphylococcus species. Collectively, our data suggest that S. aureus exploits pDC and TLR to establish B cell-mediated immune tolerance.

Functional variation reflects intra-strain diversity of Staphylococcus aureus small colony variants in the host-pathogen interaction.

It is well acknowledged that genetic variation accounts for the intra-species variability in Staphylococcus aureus isolates. Similarly, deficiency in DNA repair and the resulting increase in genomic mutations determine intra-strain variability in S. aureus small colony variants (SCV). The aim of this study was to investigate whether intra-strain diversity would be associated with an alteration of the host-pathogen interaction. To this end, biofilm formation and immune stimulatory capacity were compared in consecutive SCV isolates originating from a single patient. Despite the relatedness of the isolates, the results revealed significant differences in biofilm formation and immune stimulation determined by Toll-like receptor-2 (TLR2) activity. Variation in the extent of biofilm production could be attributed to differences in the expression of protein A (SpA) and agrA. TLR2 activity only partially correlated with these parameters. Although transiently increased functional activity correlated with clinical remission and was abrogated in MRSA superinfection, we can only speculate that changes in the SCV phenotype reflect alterations in the microbial environment and/or treatment. Taken together, our study provides in vivo evidence for the functional consequences of intra-strain variation in S. aureus.

Heterogeneity of host TLR2 stimulation by Staphylocoocus aureus isolates.

High lipoprotein expression and potent activation of host Toll-like receptor-2 (TLR2) are characteristic features of the staphylococcal species. Expression of TLR2 in the host is important for clearance of Staphylococcus aureus infection and host survival. Thus, we hypothesized that bacterial regulation of its intrinsic TLR2-stimulatory capacity could represent a means for immune evasion or host adaptation. We, therefore, compared clinical S. aureus isolates in regards to their TLR2 activation potential and assessed the bacterial factors that modulate TLR2-mediated recognition. S. aureus isolates displayed considerable variability in TLR2-activity with low to absent TLR2-activity in 64% of the isolates tested (68/106). Notably, strain-specific TLR2-activity was independent of the strain origin, e.g. no differences were found between strains isolated from respiratory specimen from cystic fibrosis patients or those isolated from invasive disease specimen. TLR2-activity correlated with protein A expression but not with the agr status. Capsule expression and small colony variant formation had a negative impact on TLR2-activity but any disruption of cell wall integrity enhanced TLR2 activation. Altogether, heterogeneity in host TLR2-activity reflects differences in metabolic activity and cell wall synthesis and/or remodeling.