eLife (Jun 2023)

A high-throughput cytotoxicity screening platform reveals agr-independent mutations in bacteraemia-associated Staphylococcus aureus that promote intracellular persistence

  • Abderrahman Hachani,
  • Stefano G Giulieri,
  • Romain Guérillot,
  • Calum J Walsh,
  • Marion Herisse,
  • Ye Mon Soe,
  • Sarah L Baines,
  • David R Thomas,
  • Shane Doris Cheung,
  • Ashleigh S Hayes,
  • Ellie Cho,
  • Hayley J Newton,
  • Sacha Pidot,
  • Ruth C Massey,
  • Benjamin P Howden,
  • Timothy P Stinear

DOI
https://doi.org/10.7554/eLife.84778
Journal volume & issue
Vol. 12

Abstract

Read online

Staphylococcus aureus infections are associated with high mortality rates. Often considered an extracellular pathogen, S. aureus can persist and replicate within host cells, evading immune responses, and causing host cell death. Classical methods for assessing S. aureus cytotoxicity are limited by testing culture supernatants and endpoint measurements that do not capture the phenotypic diversity of intracellular bacteria. Using a well-established epithelial cell line model, we have developed a platform called InToxSa (intracellular toxicity of S. aureus) to quantify intracellular cytotoxic S. aureus phenotypes. Studying a panel of 387 S. aureus bacteraemia isolates, and combined with comparative, statistical, and functional genomics, our platform identified mutations in S. aureus clinical isolates that reduced bacterial cytotoxicity and promoted intracellular persistence. In addition to numerous convergent mutations in the Agr quorum sensing system, our approach detected mutations in other loci that also impacted cytotoxicity and intracellular persistence. We discovered that clinical mutations in ausA, encoding the aureusimine non-ribosomal peptide synthetase, reduced S. aureus cytotoxicity, and increased intracellular persistence. InToxSa is a versatile, high-throughput cell-based phenomics platform and we showcase its utility by identifying clinically relevant S. aureus pathoadaptive mutations that promote intracellular residency.

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