Global network analysis of drug tolerance, mode of action and virulence in methicillin-resistant S. aureus

Ian M. Overton, Shirley Graham, Katherine A. Gould, Jason Hinds, Catherine H. Botting, Sally Shirran, Geoffrey J. Barton, Peter J. Coote

Research output: Contribution to journalArticlepeer-review

Abstract

Background: Staphylococcus aureus is a major human pathogen and strains resistant to existing treatments continue to emerge. Development of novel treatments is therefore important. Antimicrobial peptides represent a source of potential novel antibiotics to combat resistant bacteria such as Methicillin-Resistant Staphylococcus aureus (MRSA). A promising antimicrobial peptide is ranalexin, which has potent activity against Gram-positive bacteria, and particularly S. aureus. Understanding mode of action is a key component of drug discovery and network biology approaches enable a global, integrated view of microbial physiology, including mechanisms of antibiotic killing. We developed a systems-wide functional association network approach to integrate proteome and transcriptome profiles, enabling study of drug resistance and mode of action.

Results: The functional association network was constructed by Bayesian logistic regression, providing a framework for identification of antimicrobial peptide (ranalexin) response modules from S. aureus MRSA-252 transcriptome and proteome profiling. These signatures of ranalexin treatment revealed multiple killing mechanisms, including cell wall activity. Cell wall effects were supported by gene disruption and osmotic fragility experiments. Furthermore, twenty-two novel virulence factors were inferred, while the VraRS two-component system and PhoU-mediated persister formation were implicated in MRSA tolerance to cationic antimicrobial peptides.

Conclusions: This work demonstrates a powerful integrative approach to study drug resistance and mode of action. Our findings are informative to the development of novel therapeutic strategies against Staphylococcus aureus and particularly MRSA.

Original languageEnglish
Article number68
Number of pages16
JournalBMC Systems Biology
Volume5
DOIs
Publication statusPublished - 12 May 2011

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  • BBSRC BBS/B/14426: SPORT

    White, M. (PI), Coote, P. J. (CoI), Elliott, R. M. (CoI) & Taylor, G. L. (CoI)

    BBSRC

    18/10/0430/04/12

    Project: Standard

  • BBSRC BBS/B/14426: SPORT

    Naismith, J. (PI)

    BBSRC

    18/10/0430/04/12

    Project: Standard

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