Author:
Zarkan Ashraf,Matuszewska Marta,Trigg Stephen B.,Zhang Meng,Belgami Daaniyah,Croft Cameron,Liu Junyan,El-Ouisi Sawssen,Greenhalgh Jack,Duboff James S.,Rahman Taufiq,Summers David K.
Abstract
AbstractPersisters are a sub-population of genetically sensitive bacteria that survive antibiotic treatment by entering a dormant state. The emergence of persisters from dormancy after antibiotic withdrawal leads to recurrent infection. Indole is an aromatic molecule with diverse signalling roles, including a role in persister formation. Here we demonstrate that indole stimulates the formation of Escherichia coli persisters against quinolone antibiotics which target the GyrA subunit of DNA gyrase. However, indole has no effect on the formation of E. coli persisters against an aminocoumarin, novobiocin, which targets the GyrB subunit of DNA gyrase. Two modes of indole signalling have been described: persistent and pulse. The latter refers to the brief but intense elevation of intracellular indole during stationary phase entry. We show that the stimulation of quinolone persisters is due to indole pulse, rather than persistent, signalling. In silico docking of indole on DNA gyrase predicts that indole docks perfectly to the ATP binding site of the GyrB subunit. We propose that the inhibition of indole production offers a potential route to enhance the activity of quinolones against E. coli persisters.
Funder
Leverhulme Trust
Innovate UK
Wellcome Trust Developing Concept Fund
Medical Research Council
Biotechnology and Biological Sciences Research Council
Publisher
Springer Science and Business Media LLC
Cited by
15 articles.
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