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Host-dependent resistance of Group A Streptococcus to sulfamethoxazole mediated by a horizontally-acquired reduced folate transporter

Author

Listed:
  • M. Kalindu D. Rodrigo

    (University of Western Australia)

  • Aarti Saiganesh

    (University of Western Australia)

  • Andrew J. Hayes

    (University of Melbourne)

  • Alisha M. Wilson

    (University of Western Australia)

  • Jack Anstey

    (University of Western Australia)

  • Janessa L. Pickering

    (University of Western Australia)

  • Jua Iwasaki

    (University of Western Australia)

  • Jessica Hillas

    (University of Western Australia)

  • Scott Winslow

    (University of Western Australia)

  • Tabitha Woodman

    (University of Western Australia)

  • Philipp Nitschke

    (Murdoch University)

  • Jake A. Lacey

    (University of Melbourne)

  • Karen J. Breese

    (University of Western Australia)

  • Mark P. G. Linden

    (University Hospital RWTH Aachen)

  • Philip M. Giffard

    (Charles Darwin University
    Charles Darwin University)

  • Steven Y. C. Tong

    (University of Melbourne
    The Royal Melbourne Hospital)

  • Nicola Gray

    (Murdoch University)

  • Keith A. Stubbs

    (University of Western Australia)

  • Jonathan R. Carapetis

    (University of Western Australia
    Perth Children’s Hospital)

  • Asha C. Bowen

    (University of Western Australia
    Perth Children’s Hospital)

  • Mark R. Davies

    (University of Melbourne)

  • Timothy C. Barnett

    (University of Western Australia
    University of Western Australia)

Abstract

Described antimicrobial resistance mechanisms enable bacteria to avoid the direct effects of antibiotics and can be monitored by in vitro susceptibility testing and genetic methods. Here we describe a mechanism of sulfamethoxazole resistance that requires a host metabolite for activity. Using a combination of in vitro evolution and metabolic rescue experiments, we identify an energy-coupling factor (ECF) transporter S component gene (thfT) that enables Group A Streptococcus to acquire extracellular reduced folate compounds. ThfT likely expands the substrate specificity of an endogenous ECF transporter to acquire reduced folate compounds directly from the host, thereby bypassing the inhibition of folate biosynthesis by sulfamethoxazole. As such, ThfT is a functional equivalent of eukaryotic folate uptake pathways that confers very high levels of resistance to sulfamethoxazole, yet remains undetectable when Group A Streptococcus is grown in the absence of reduced folates. Our study highlights the need to understand how antibiotic susceptibility of pathogens might function during infections to identify additional mechanisms of resistance and reduce ineffective antibiotic use and treatment failures, which in turn further contribute to the spread of antimicrobial resistance genes amongst bacterial pathogens.

Suggested Citation

  • M. Kalindu D. Rodrigo & Aarti Saiganesh & Andrew J. Hayes & Alisha M. Wilson & Jack Anstey & Janessa L. Pickering & Jua Iwasaki & Jessica Hillas & Scott Winslow & Tabitha Woodman & Philipp Nitschke & , 2022. "Host-dependent resistance of Group A Streptococcus to sulfamethoxazole mediated by a horizontally-acquired reduced folate transporter," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34243-3
    DOI: 10.1038/s41467-022-34243-3
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    References listed on IDEAS

    as
    1. Stephan Brouwer & Timothy C. Barnett & Diane Ly & Katherine J. Kasper & David M. P. Oliveira & Tania Rivera-Hernandez & Amanda J. Cork & Liam McIntyre & Magnus G. Jespersen & Johanna Richter & Benjami, 2020. "Prophage exotoxins enhance colonization fitness in epidemic scarlet fever-causing Streptococcus pyogenes," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    2. Yusuke Minato & Surendra Dawadi & Shannon L. Kordus & Abiram Sivanandam & Courtney C. Aldrich & Anthony D. Baughn, 2018. "Mutual potentiation drives synergy between trimethoprim and sulfamethoxazole," Nature Communications, Nature, vol. 9(1), pages 1-7, December.
    Full references (including those not matched with items on IDEAS)

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