Objectives: Oxacillin-susceptible mecA-positive Staphylococcus aureus (OS-MRSA) is clinically significant and isolated globally but the mechanism of its occurrence remains indistinct. We sought to assess the mechanism of regulating oxacillin susceptibility in OS-MRSA isolates by evaluating the evolutionary dynamics of OS-MRSA and the discrepancies of mecA-regulating genes in OS-MRSA and oxacillin-resistant MRSA (OR-MRSA).
Methods: Nine OS-MRSA isolates and 77 OR-MRSA isolates were sequenced using next-generation sequencing (NGS) platforms. Two representative OS-MRSA isolates (ET-13, ET-16) were induced to be oxacillin resistant and sequenced also. OS-MRSA ET-16 and its counterpart isolate with induced oxacillin resistance, ET-16I, and their mutants were used to confirm the role of the bla system in regulating methicillin susceptibility. Oxacillin MICs were determined using Etests. Expression of mecA and blaR1 was quantified by quantitative RT-PCR.
Results: A deletion in blaR1 in most OS-MRSA isolates (7/9; 77.78%) was found using NGS data, and overexpression of OR-blaR1 in OS-MRSA isolate ET-16 restored its oxacillin resistance. OS-MRSA could be induced to be oxacillin resistant, while growth was suppressed in the induced isolates. Plasmid containing the bla locus was lost in most induced isolates during the induction process and complementation of blaR1-blaI from OS-MRSA ET-16 to the induced isolate ET-16I converted its oxacillin susceptibility.
Conclusions: Deletion in blaR1 resulted in oxacillin susceptibility in OS-MRSA, and loss of the bla regulator in OS-MRSA restored oxacillin resistance. The bla system played a crucial role in regulating oxacillin susceptibility in OS-MRSA isolates.
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