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1. Enterotoxigenicity and Antibiotic Resistance of Coagulase-Negative Staphylococci Isolated from Raw Buffalo and Cow Milk.

Author

Osman KM, Pires ÁDS, Franco OL, Orabi A, Hanafy MH, Marzouk E, Hussien H, Alzaben FA, Almuzaini AM, and Elbehiry A

Subjects

Animals, Buffaloes, Cattle, Computational Biology, Drug Resistance, Bacterial drug effects, Egypt, Hemolysin Proteins biosynthesis, Microbial Sensitivity Tests, Staphylococcus drug effects, Staphylococcus isolation & purification, Anti-Bacterial Agents pharmacology, Coagulase biosynthesis, Drug Resistance, Bacterial genetics, Milk microbiology, Staphylococcus genetics, beta-Lactamases genetics

Abstract

Staphylococcal food poisoning is considered to be one of the most common foodborne illnesses worldwide. Because milk is rich in nutrients and its neutral pH, it leads to the growth of various bacteria. To date, the correlation between enterotoxigenic potential in Staphylococcus species and antimicrobial resistance (AMR), using bioinformatics analysis in buffalo and cow raw milk and the possible health risks from these bacteria, has not been examined in Egypt. A total of 42 Staphylococcus isolates representing 12 coagulase-positive staphylococci ( Staphylococcus aureus and Staphylococcus intermedius ) and 30 coagulase-negative staphylococci ( Staphylococcus capitis , Staphylococcus xylosus , Staphylococcus carnosus , Staphylococcus saccharolyticus , and Staphylococcus auricularis ) were isolated. An assay of the antimicrobial resistance phenotypes indicated low resistance against vancomycin (9.5%). The blaZ gene was associated with penicillin G and methicillin resistance and not with sulbactam + ampicillin. The presence of the gene ermB presented the correlation with erythromycin resistance and tetK with tetracycline resistance (correlation index: 0.57 and 0.49, respectively), despite the absence of the same behavior for ermC and tetM , respectively. Interestingly, the gene mecA was not correlated with resistance to methicillin or any other β-lactam. Correlation showed that slime-producing isolates had more resistance to antibiotics than those of nonslime producers. The multiple correlations between antibiotic resistance phenotypes and resistance genes indicate a complex nature of resistance in Staphylococcus species. The antimicrobial resistance could potentially spread to the community and thus, the resistance of Staphylococcus species to various antibiotics does not depend only on the use of a single antimicrobial, but also extends to other unrelated classes of antimicrobials.

Published

2020