Abstract
Staphylococcus aureus (S. aureus) is one of the major causes of bovine mastitis, a disease with detrimental effects on health and wellbeing. Current control measures are costly, laborious and not always effective in eradicating S. aureus. The cell wall-linked polysaccharide wall teichoic acid (WTA) is highly immunogenic in humans and is considered as a prospective vaccine antigen based on promising pre-clinical studies in animals. WTA consist of polymerized ribitol-phosphate backbone that is modified with N-acetylglucosamine (GlcNAc) moieties in different configurations by the glycosyltransferases TarS (β-1,4-GlcNAc), TarM (α-1,4-GlcNAc) and TarP (β-1,3-GlcNAc). This study aimed to characterize the presence and genetic variation in tarS, tarM and tarP in bovine-associated S. aureus strains and how this impacts WTA-glycoprofile. Bioinformatic analyses of a whole genome sequence database consisting of 1047 S. aureus, 10 S. schweitzeri, and 6 S. argenteus strains showed that over 99% of strains contained tarS, 34 % also contained tarM, while 5 % of the strains encoded tarP in addition to tarS. The distribution of WTA-glycosyltransferase genes was similar to what has been reported for human-associated S. aureus strains. Phenotypic analysis of WTA glycosylation by flow cytometry corroborated with tarS/tarM/tarP gene presence. The WTA glycoprofile was variable between bovine-associated strains and the levels and ratios of GlcNAcylation were affected by growth conditions. Interestingly, a divergent tarM allele was present in strains of clonal complexes (CC) 49 and the mastitis-associated CC151, but its function was similar to canonical tarM. In conclusion, we demonstrated that bovine-associated S. aureus strains show similar variation in WTA GlcNAc decoration as human S. aureus strains, despite the presence of a divergent tarM allele.
Published Version
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