Molecular population and colonisation factor analysis of the Staphylococcus intermedius group
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The Gram-positive bacterium Staphylococcus intermedius is regarded as the major cause of canine pyoderma, a common skin infection of dogs. However, despite its clinical importance, the population genetic structure of S. intermedius is poorly understood. The current study examined the population genetic structure of S. intermedius using a multilocus DNA sequencing approach. A collection of 99 isolates phenotypically identified as S. intermedius and originating from a broad array of animal hosts in several different countries was investigated. Phylogenetic analysis indicated that the isolates belonged to three distinct species including S. intermedius, staphylococcus pseudintermedius, and Staphylococcus delphini, together referred to as the S. intermedius group (SIG). Importantly, it was discovered that all canine isolates investigated belonged to the S. pseudintermedius phylotype and it was concluded that S. pseudintermedius, not S. intermedius, is the common cause of canine pyoderma. Further, it was revealed that S. delphini is more clinically important than was previously thought. The allelic variation of agrD, which encodes the autoinducing peptide (AIP) of the agr quorum sensing system in staphylococci, was determined for all isolates. Four AIP variants were identified, including three which were present in all three species, suggesting that a common quorum sensing capacity has been conserved despite species differentiation in very different niches. Considerable clonal diversity was revealed within the S. pseudintermedius species, including several methicillin-resistant clones which have evolved by recent acquisition of the mecA gene. Using the sequence diversity identified, a simple diagnostic test was developed based on a PCR-RFLP approach to discriminate S. pseudintermedius from S. intermedius and S. delphini. Having established that S. pseudintermedius is the common canine pyoderma pathogen, this study aimed to investugate key host-pathogen interactions involved in colonisation of its canine host. Bioinformatic analysis of the whole genome sequence of a clinical isolate of S. pseudintermedius (strain ED99) revealed 17 genes encoding predicted LPXTG-containing cell wall-anchored (CWA) surface proteins. A diverse collection of S. pseudintermedius isolates and closely related staphylococcal species was screened for the presence of the genes encodng the novel CWA proteins. The majority of genes were widely distributed among the isolates examined, with nine genes being exclusive to S. pseudintermedius and eight being also present in other members of the SIG. In Gram-positive bacteria, a family of CWA proteins called microbial surgace components recognising adhesive matrix molecules (MSCRAMMs)mediates bacterial adherence to extracellular matrix proteins of the host. Three of the 17 predicted novel CWA proteins, designated SpsD, SpsL and SpsO, were selected for further characterisation of their role in host-pathogen interactions and were cloned and expressed on the surface of the surrogate host Lactococcus lactis. Solid phase adherence assays employing host extracellular matrix proteins and canine corneocytes were performed to identify host extracellular matrix proteins and canine corneocytes were performed to identify host receptors for the putative MSCRAMMs. L. lactis expressing SpsD demonstrated binding to fibronectin, fibrinogen and cytokeratin 10, SpsL mediated binding of L. lactis to fibronectin and canine fibrrinogen, and SpsD and SpsO both mediated L. lactis adherence to canine corneocytes. Additionally, a cell culture assay using a commercially available canine epidermal cell line was developed and the adherence of S. pseudintermedius ED99 and the L. lactis constructs to the cell line was tested. S. pseudintermedius ED99, but none of the MSCRAMM-expressing L. lactis strains, adhered to the canine epidermal cells in vitro, suggesting that receptors for S. pseudintermedius adherence which are present in ex vivo corneocytes are not present in undifferentiated canine epidermal cell line preparations. Take together, the present study provides broad new insights into the classification and evolution of the SIG, and the molecular interaction of S. pseudintermedius with its canine host.