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Epistasis analysis uncovers hidden antibiotic resistance-associated fitness costs hampering the evolution of MRSA

Yokoyama, Maho; Stevens, Emily; Laabei, Maisem; Bacon, Leann; Heesom, Kate; Bayliss, Sion; Ooi, Nicola; O’Neill, Alex J.; Murray, Ewan; Williams, Paul; Lubben, Anneke; Reeksting, Shaun; Meric, Guillaume; Pascoe, Ben; Sheppard, Samuel K.; Recker, Mario; Hurst, Laurence D.; Massey, Ruth C.

Authors

Maho Yokoyama

Maisem Laabei

Leann Bacon

Kate Heesom

Sion Bayliss

Nicola Ooi

Alex J. O’Neill

Ewan Murray

Paul Williams

Anneke Lubben

Shaun Reeksting

Guillaume Meric

Ben Pascoe

Samuel K. Sheppard

Mario Recker

Laurence D. Hurst

Ruth C. Massey



Abstract

Background
Fitness costs imposed on bacteria by antibiotic resistance mechanisms are believed to hamper their dissemination. The scale of these costs is highly variable. Some, including resistance of Staphylococcus aureus to the clinically important antibiotic mupirocin, have been reported as being cost-free, which suggests that there are few barriers preventing their global spread. However, this is not supported by surveillance data in healthy communities, which indicate that this resistance mechanism is relatively unsuccessful.

Results
Epistasis analysis on two collections of MRSA provides an explanation for this discord, where the mupirocin resistance-conferring mutation of the ileS gene appears to affect the levels of toxins produced by S. aureus when combined with specific polymorphisms at other loci. Proteomic analysis demonstrates that the activity of the secretory apparatus of the PSM family of toxins is affected by mupirocin resistance. As an energetically costly activity, this reduction in toxicity masks the fitness costs associated with this resistance mutation, a cost that becomes apparent when toxin production becomes necessary. This hidden fitness cost provides a likely explanation for why this mupirocin-resistance mechanism is not more prevalent, given the widespread use of this antibiotic.

Conclusions
With dwindling pools of antibiotics available for use, information on the fitness consequences of the acquisition of resistance may need to be considered when designing antibiotic prescribing policies. However, this study suggests there are levels of depth that we do not understand, and that holistic, surveillance and functional genomics approaches are required to gain this crucial information.

Citation

Yokoyama, M., Stevens, E., Laabei, M., Bacon, L., Heesom, K., Bayliss, S., …Massey, R. C. (2018). Epistasis analysis uncovers hidden antibiotic resistance-associated fitness costs hampering the evolution of MRSA. Genome Biology, 19, Article 94. https://doi.org/10.1186/s13059-018-1469-2

Journal Article Type Article
Acceptance Date Jun 25, 2018
Online Publication Date Jul 18, 2018
Publication Date Jul 18, 2018
Deposit Date Feb 13, 2024
Journal Genome Biology
Print ISSN 1465-6906
Publisher Springer Verlag
Peer Reviewed Peer Reviewed
Volume 19
Article Number 94
DOI https://doi.org/10.1186/s13059-018-1469-2
Publisher URL https://genomebiology.biomedcentral.com/articles/10.1186/s13059-018-1469-2


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