Non-aureus Staphylococci Cause the Spontaneous Cure or Persistent Infection of Major Bovine Mastitis Pathogens in the Murine Mammary Glands

The microbial ecology in mastitis involves the interactions between bacteria and the mammary gland environment. Poor mastitis control, for which understanding these microbial relationships is crucial, increases the risk of mastitis and co-infections. The aim of this study was to determine the pathogenesis and bacterial ecology of murine mammary glands following intramammary infection (IMI) with S. aureus (AU), S. agalactiae (SA), and four isolates of selected non-aureus staphylococci (NAS), as well as co-infections of AU or SA with NAS. Selected NAS demonstrated resistance to growth inhibition after co-culture with AU and SA and were proven to be protective in vitro against AU and SA. Both single infections and co-infections of AU, SA, two selected isolates of S. hominis (NAS1 and NAS2), and two selected isolates of S. chromogens (NAS3 and NAS4) were injected into the murine mammary glands at 10⁵ CFU/mL. After 72 h of inoculation, the results showed that AU, AU–NAS2, and AU–NAS3 expressed severe inflammation with clinical signs of mastitis. The persistence of AU was found for AU, NAS3, and AU–NAS3, whereas the persistence of SA was found for SA–NAS1, SA–NAS3, and SA–NAS, although single SA could not persist. Interestingly, NAS2 in both the single- and co-IMIs with AU or SA resulted in a spontaneous cure 72 h after the IMI. In conclusion, some NAS have beneficial results because they can eliminate S. aureus and S. agalactiae, but some NAS have negative effects because they can support persistent S. agalactiae infection. These results may be used to explain both the advantages and disadvantages of NAS on farms with poor mastitis control. In addition, the beneficial S. hominis may initiate natural live antibiotics and reduce antibiotic resistance problems.