lugdunensis invasion In general, only low fibronectin binding ha

lugdunensis invasion. In general, only low fibronectin binding has been described (Paulsson et al., 1993) and putative homologs to FnBP’s

of S. aureus have not yet been described for S. lugdunensis. The binding of clinical strains of S. lugdunensis to solid-phase fibrinogen varied within the strains independently of the occurrence of the fbl gene (Szabados et al., 2011). The fibronectin binding also varied within the strains (Fig. 1b), but the allocation of the fibronectin binding seems to be expectedly independent of the fibrinogen binding. The fibrinogen- and fibronectin-binding proteins could be either differentially expressed or the expression could be masked by the production of extracellular matrix, such as a biofilm (Frank & Patel, 2007). Notably, the relative

invasiveness of S. aureus isolates into 293 cells was dependent on the clinical Selleck Tanespimycin strain. Some S. aureus strains, such as S. aureus 8325-4, S. aureus Wood 46 and S. aureus Newman, have been shown to have a relative invasiveness of below 20% compared with S. aureus Cowan I and have been therefore defined as non-invasive (Sinha et al., selleck chemicals llc 1999). Interestingly, the S. aureus Newman was also weak in binding to solid phase fibronectin, supporting the hypotheses that S. aureus Newman is non-invasive due to a weak fibronectin binding. Notably, the strain S. aureus 8325-4 has recently been described as invasive, compared with its isogenic fnbA and fnbB knockout

mutants (Trouillet et al., 2011), indicating that invasion of cells is not only strain-dependent but also a relative attribute. Limited data on very few strains of S. aureus indicate that the degree of fibronectin binding influences the invasion of eukaryotic cells (Sinha et al., 1999). Nevertheless, Smoothened fibronectin binding in S. lugdunensis and correlated invasion attribute have not been investigated in a larger collection of clinical isolates of S. aureus. Moreover, the binding S. lugdunensis to solid-phase fibrinogen in our study was independent from the invasion of cells. The fibronectin binding was also independent of the fibrinogen-binding attribute, as shown by an isogenic fbl knockout mutant. In addition, Fbl is not involved in the invasion of cells, as shown by an isogenic fbl mutant (Fig. 5). The invasion of cells was impaired in S. aureus and S. lugdunensis if an experiment was performed without FCS. The addition of 20 ng fibronectin restored the impaired invasion of cells by S. aureus and also by S. lugdunensis, similar to results that have previously been published for S. aureus (Sinha et al., 1999). Interestingly, the addition of cytochalasin D completely inhibited the invasion of cells by S. aureus Cowan I, but only partly by S. lugdunensis strain Stlu 108 (Fig. 5). This indicates that invasion of cells by S. lugdunensis was mediated by at least one other additional pathway.

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