Abstract
Staphylococcus aureus infection is a common cause of mastitis, reducing milk yield, affecting animal welfare and causing huge economic losses within the dairy industry. In addition to the problem of acquired drug resistance, bacterial invasion into udder cells and the formation of surface biofilms are believed to reduce antibiotic efficacy, leading to treatment failure. Here, we investigated the antimicrobial activities of enrofloxacin, an antibiotic that is commonly used in mastitis therapy and polyhexamethylene biguanide (PHMB), an antimicrobial polymer. The antimicrobial activities were tested against intracellular S. aureus in infected Mac-T cells (host cells). Also, fluorescein-tagged PHMB was used to study PHMB uptake and localization with S. aureus within the infected Mac-T cells. Anti-biofilm activities were tested by treating S. aureus biofilms and measuring effects on biofilm mass in vitro. Enrofloxacin and PHMB at 15 mg/L killed between 42 to 92 and 99.9% of intracellular S. aureus, respectively. PHMB-FITC entered and colocalized with the intracellular S. aureus, suggesting direct interaction of the drug with the bacteria inside the host cells. Enrofloxacin and PHMB at 15 mg/L reduced between 10 to 27% and 28 to 37% of biofilms’ mass, respectively. The half-maximal inhibitory concentrations (IC50) obtained from a cytotoxicity assay were 345 ± 91 and 21 ± 2 mg/L for enrofloxacin and PHMB, respectively; therefore, both compounds were tolerated by the host cells at high concentrations. These findings suggest that both antimicrobials are effective against intracellular S. aureus and can disrupt biofilm structures, with PHMB being more potent against intracellular S. aureus, highlighting the potential application of PHMB in mastitis therapy.
Highlights
Bovine mastitis causes huge economic losses in the dairy industry (Huijps et al, 2008)
To measure susceptibility of S. aureus to enrofloxacin and polyhexamethylene biguanide (PHMB), Minimum Inhibitory Concentrations (MIC) values were determined for all three strains tested; strain 15AL, 59 and 204
All three S. aureus strains included in this study invaded the host cells, as indicated by their ability to evade gentamicin treatment (Figure 2)
Summary
Bovine mastitis causes huge economic losses in the dairy industry (Huijps et al, 2008). The disease has been identified as the most common cause of morbidity in adult dairy cows in the United States (USDA, 2007). Mastitis is manifested by inflammation of the mammary gland, triggered by bacteria invasion through the teat canal (Gruet et al, 2001). PHMB Activities against S. aureus Mastitis bacteria, mycoplasmas and algae are associated with mastitis. The majority of cases appear to be caused by Eschericia coli (E. coli), Streptococcus uberis (S. uberis), and S. aureus (Cheng et al, 2010; Zadoks et al, 2011). S. aureus is associated with up to 30% of bovine mastitis cases, causing sub-clinical and chronic infections in the mammary gland (Weber et al, 2006; Halasa et al, 2007). S. aureus produces toxins that can induce necrosis (cell death) of milk secretory tissues, reducing milk production and food safety (Zhao and Lacasse, 2008)
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