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Efflux pump activity potentiates the evolution of antibiotic resistance across S. aureus isolates

Andrei Papkou (), Jessica Hedge, Natalia Kapel, Bernadette Young and R. Craig MacLean ()
Additional contact information
Andrei Papkou: University of Oxford
Jessica Hedge: University of Oxford
Natalia Kapel: University of Oxford
Bernadette Young: University of Oxford
R. Craig MacLean: University of Oxford

Nature Communications, 2020, vol. 11, issue 1, 1-15

Abstract: Abstract The rise of antibiotic resistance in many bacterial pathogens has been driven by the spread of a few successful strains, suggesting that some bacteria are genetically pre-disposed to evolving resistance. Here, we test this hypothesis by challenging a diverse set of 222 isolates of Staphylococcus aureus with the antibiotic ciprofloxacin in a large-scale evolution experiment. We find that a single efflux pump, norA, causes widespread variation in evolvability across isolates. Elevated norA expression potentiates evolution by increasing the fitness benefit provided by DNA topoisomerase mutations under ciprofloxacin treatment. Amplification of norA provides a further mechanism of rapid evolution in isolates from the CC398 lineage. Crucially, chemical inhibition of NorA effectively prevents the evolution of resistance in all isolates. Our study shows that pre-existing genetic diversity plays a key role in shaping resistance evolution, and it may be possible to predict which strains are likely to evolve resistance and to optimize inhibitor use to prevent this outcome.

Date: 2020
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DOI: 10.1038/s41467-020-17735-y

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