Project description:Skin colonisation of varied communities of commensal microorganisms, such as Staphylococcus aureus (SA), Staphylococcus epidermidis (SE) and Staphylococcus capitis (SC) form the microbiome; a necessity for healthy skin. The skin changes characteristic of atopic dermatitis, a common inflammatory skin disease, have been shown to provide a favourable niche for SA colonisation. We utilised a reconstructed human epidermal (RHE) model recapitulating the stratified anatomy of the epidermis on which to test host responses to bacterial colonisation. SA proliferation was significantly inhibited in contrast to that seen with SE at both high and low colonisation loads after 24 hours. These data strongly suggest species specific regulation of staphylococcal growth, which is partially mediated by interaction with the epidermis.

Project description:Draft genome sequences of four Pseudomonas aeruginosa clinical strains with various biofilm phenotypes

Project description:Sequencing of Staphylococcus epidermidis strains isolated from normal human skin

Project description:Proteomic analysis of a commensal Staphylococcus epidermidis strain in different pH conditions for describing the molecular players involved in the skin-to-blood adaptation of the bacterium.

Project description:Draft whole genome sequences of four Escherichia coli strains isolated from an agricultural environment.

Project description:Draft Genome Sequences of Hazelnut-Associated Pseudomonas strains Isolated from Ontario, Canada

Project description:Draft Genome Sequences of Hazelnut-Associated Pseudomonas strains Isolated from Ontario, Canada

Project description:We used high-throughput qRT-PCR analysis to obtain full genome qRT- PCR data for the Staphylococcus aureus strains USA300 (wild type) and TB15 (mutant). Both strains were collected during infection from 4 mouse organs ( skin, kidney, lung,liver) as well as from human neutrophil infection.

Project description:Staphylococcus aureus strains isolated from keratinocyte skin cancers

Project description:Actinic keratoses (AK) are premalignant lesions common on photo-damaged skin that, over time, can progress to squamous cell carcinoma (SCC). A high bacterial load of Staphylococcus aureus is associated with AK and SCC but it is unknown whether this has a direct impact on skin cancer development. To determine whether S. aureus is able to trigger pro-tumorigenic skin responses, we performed RNAseq and shotgun proteomics on primary human keratinocytes after challenge with sterile culture supernatant (‘secretome’) from S. aureus clinical strains isolated from AK and SCC. Certain S. aureus secretomes induced keratinocytes to overexpress SCC biomarkers that have been associated with skin carcinogenesis, and upregulate the expression of enzymes linked with reduced skin barrier function. Further, S. aureus secretomes downregulated DNA repair mechanisms and induced oxidative stress markers. Subsequent experiments confirmed that exposure to SCC-derived S. aureus secretomes lead to increased intracellular ROS levels and DNA damage in primary human keratinocytes. Altogether, this study reveal a novel mechanism for the pro-tumorigenic activity of S. aureus. Further studies are required to determine whether S. aureus products promote SCC development in vivo, which would have important implications for the treatment of AK and prevention of SCC.