JK microbiologist, immunological methods DM laboratory animal de

JK microbiologist, immunological methods. DM laboratory animal design, manuscript draft provision. AJ microbiologist, bacteriological methods. MA general surgeon, cooperated in inducing burns. MN assistant in bacteriological methods. AHZ assistant surgeon and laboratory animal carer. NK assistant in immunological methods”
“Background Staphylococcus aureus causes community-acquired and nosocomial infections. Although multiple body sites such as the axilla and the perineum can be colonized, the most frequent site of carriage is the moist squamous epithelium of the anterior nares. About 20% of

the human population carry S. aureus permanently in their noses and another 60% of individuals are intermittent MAPK inhibitor carriers [1]. The reasons for the variable tropism of S. aureus for the

human nares are unclear. Higher carriage rates occur in white people [2], in men [2], in certain age groups [3] and in dialysis [4], diabetic [5] and AIDS patients [6]. Infection rates are higher in carriers than in non-carriers and invasive selleck chemical disease is often caused by a patients’ carried strain [7]. However when infected, carriers suffer significantly fewer fatalities, suggesting that carriage stimulates a degree of protective immunity [8]. It has been suggested that the ability of S. aureus to adhere to human desquamated nasal epithelial cells is an important factor in AICAR price determining nasal colonization [9]. Both clumping factor B (ClfB) and iron regulated surface determinant protein A (IsdA) are expressed on the bacterial cell surface and promote adhesion to desquamated epithelial cells in vitro and colonization of the nares of rodents in in vivo models [10, 11], and in the case of ClfB [12], humans. Protection against colonization was elicited by active immunization of rodents with recombinant ClfB or IsdA, and in the case of ClfB, with a function-blocking monoclonal antibody. The surface protein SasG can also promote adhesion to desquamated nasal epithelial cells in vitro [13, 14]. However SasG is not expressed by many strains including Newman [14]. A mutant of S. aureus strain Newman defective in IsdA and ClfB had reduced adherence to squamous

cells but still bound at about 40% of the level of the Buspirone HCl wild-type [10]. Since SasG is not expressed by strain Newman [14], other cell surface components are likely to be involved. It had been noted that the serine-aspartic acid repeat proteins SdrC and SdrD can also promote adhesion to squamous cells [11], although this has never been examined in detail. In this paper the role of surface proteins IsdA, ClfB, SdrC and SdrD in adhesion to desquamated cell has been systematically analyzed in order to determine the contribution of each under the same conditions. This was achieved by expression of ClfB, IsdA, SdrC and SdrD on the surface of the Gram-positive surrogate host Lactococcus lactis and by testing single and combined mutants of S. aureus Newman.

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