Journal
MOLECULAR CELL
Volume 50, Issue 4, Pages 475-487Publisher
CELL PRESS
DOI: 10.1016/j.molcel.2013.04.002
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Funding
- National Science Foundation
- Department of the Army [W81XWH-12-2-0138]
- Princeton University
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Bacterial persisters are phenotypic variants that form from the action of stress response pathways triggering toxin-mediated antibiotic tolerance. Although persisters form during normal growth from native stresses, the pathways responsible for this phenomenon remain elusive. Here we have discovered that carbon source transitions stimulate the formation of fluoroquinolone persisters in Escherichia coli. Further, through a combination of genetic, biochemical, and flow cytometric assays in conjunction with a mathematical model, we have reconstructed a molecular-level persister formation pathway from initial stress (glucose exhaustion) to the activation of a metabolic toxin-antitoxin (TA) module (the ppGpp biochemical network) resulting in inhibition of DNA gyrase activity, the primary target of fluoroquinolones. This pathway spans from initial stress to antibiotic target and demonstrates that TA behavior can be exhibited by a metabolite-enzyme interaction (ppGpp-SpoT), in contrast to classical TA systems that involve only protein and/or RNA.
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