identification of secreted exoproteome fingerprints of highly-virulent and non-virulent staphylococcus aureus strains.

identification of secreted exoproteome fingerprints of highly-virulent and non-virulent staphylococcus aureus strains.

;Emilia eBonar;Iwona eWojcik;Urszula eJankowska;Sylwia eKedracka-Krok;Sylwia eKedracka-Krok;Michal eBukowski;Klaudia ePolakowska;Marcin W Lis;Maja eKosecka-Strojek;Artur J Sabat;Grzegorz eDubin;Grzegorz eDubin;Alex W. Friedrich;Jacek eMiedzobrodzki;Adam eDubin;Benedykt eWladyka
electronic physician 2016 Vol. 6 pp. -
259
ebonar2016frontiersidentification

Abstract

Staphylococcus aureus is a commensal inhabitant of skin and mucous membranes in nose vestibule but also an important opportunistic pathogen of humans and livestock. The extracellular proteome as a whole constitutes its major virulence determinant; however, the involvement of particular proteins is still relatively poorly understood. In this study, we compared the extracellular proteomes of poultry-derived S. aureus strains exhibiting a virulent (VIR) and non-virulent (NVIR) phenotype in a chicken embryo experimental infection model with the aim to identify proteomic signatures associated with the particular phenotypes. Despite significant heterogeneity within the analyzed proteomes, we identified alpha-haemolysin and bifunctional autolysin as indicators of virulence, whereas glutamylendopeptidase production was characteristic for non-virulent strains.Staphopain C (StpC) was identified in both the VIR and NVIR proteomes and the latter fact contradicted previous findings suggesting its involvement in virulence. By supplementing NVIR, StpC-negative strains with StpC and comparing the virulence of parental and supplemented strains, we demonstrated that staphopain C alone does not affect staphylococcal virulence in a chicken embryo model.

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198923
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10.3389/fcimb.2016.00051
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