1. Academic Validation
  2. Shigatoxin encoding Bacteriophage ϕ24B modulates bacterial metabolism to raise antimicrobial tolerance

Shigatoxin encoding Bacteriophage ϕ24B modulates bacterial metabolism to raise antimicrobial tolerance

  • Sci Rep. 2017 Jan 20;7:40424. doi: 10.1038/srep40424.
G S Holt 1 J K Lodge 1 A J McCarthy 2 A K Graham 1 G Young 1 S H Bridge 1 A K Brown 3 M Veses-Garcia 2 C V Lanyon 1 A Sails 4 H E Allison 2 D L Smith 1
Affiliations

Affiliations

  • 1 Faculty of Health and Life Sciences, Northumbria University, Newcastle upon Tyne, UK.
  • 2 Microbiology Research Group, Institute of Integrative Biology, University of Liverpool, Liverpool, UK.
  • 3 School of Medicine, Pharmacy and Health, Durham University, Durham, UK.
  • 4 Public Health England, Royal Victoria Hospital, Newcastle upon Tyne, UK.
Abstract

How temperate bacteriophages play a role in microbial Infection and disease progression is not fully understood. They do this in part by carrying genes that promote positive evolutionary selection for the lysogen. Using Biolog phenotype microarrays and comparative metabolite profiling we demonstrate the impact of the well-characterised Shiga toxin-prophage ϕ24B on its Escherichia coli host MC1061. As a lysogen, the prophage alters the Bacterial physiology by increasing the rates of respiration and cell proliferation. This is the first reported study detailing phage-mediated control of the E. coli biotin and fatty acid synthesis that is rate limiting to cell growth. Through ϕ24B conversion the lysogen also gains increased antimicrobial tolerance to chloroxylenol and 8-hydroxyquinoline. Distinct metabolite profiles discriminate between MC1061 and the ϕ24B lysogen in standard culture, and when treated with 2 antimicrobials. This is also the first reported use of metabolite profiling to characterise the physiological impact of lysogeny under antimicrobial pressure. We propose that temperate phages do not need to carry antimicrobial resistance genes to play a significant role in tolerance to antimicrobials.

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