Enterobacteria secrete an inhibitor of Pseudomonas virulence during clinical bacteriuria
Shannon I. Ohlemacher, … , Barbara W. Trautner, Jeffrey P. Henderson
Shannon I. Ohlemacher, … , Barbara W. Trautner, Jeffrey P. Henderson
Published September 25, 2017
Citation Information: J Clin Invest. 2017;127(11):4018-4030. https://doi.org/10.1172/JCI92464.
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Research Article Infectious disease Article has an altmetric score of 14

Enterobacteria secrete an inhibitor of Pseudomonas virulence during clinical bacteriuria

Abstract

Escherichia coli and other Enterobacteriaceae are among the most common pathogens of the human urinary tract. Among the genetic gains of function associated with urinary E. coli isolates is the Yersinia high pathogenicity island (HPI), which directs the biosynthesis of yersiniabactin (Ybt), a virulence-associated metallophore. Using a metabolomics approach, we found that E. coli and other Enterobacteriaceae expressing the Yersinia HPI also secrete escherichelin, a second metallophore whose chemical structure matches a known synthetic inhibitor of the virulence-associated pyochelin siderophore system in Pseudomonas aeruginosa. We detected escherichelin during clinical E. coli urinary tract infection (UTI) and experimental human colonization with a commensal, potentially probiotic E. coli bacteriuria strain. Escherichelin production by colonizing enterobacteria may help human hosts resist opportunistic infections by Pseudomonas and other pyochelin-expressing bacteria. This siderophore-based mechanism of microbial antagonism may be one of many elements contributing to the protective effects of the human microbiome. Future UTI-preventive probiotic strains may benefit by retaining the escherichelin biosynthetic capacity of the Yersinia HPI while eliminating the Ybt biosynthetic capacity.

Authors

Shannon I. Ohlemacher, Daryl E. Giblin, D. André d’Avignon, Ann E. Stapleton, Barbara W. Trautner, Jeffrey P. Henderson

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Figure 4

Escherichelin release is suppressed in P. aeruginosa relative to E. coli.

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Escherichelin release is suppressed in P. aeruginosa relative to E. coli...
LC-MS/MS chromatograms of extracellular metabolites released from Ybt and pyochelin biosynthetic enzymes in the E. coli strain UTI89 (left) and the P. aeruginosa strain PA01 (right) cultured in iron-deficient media are displayed in the center. Chromatograms are identically scaled, except for P. aeruginosa pyochelin, which is at ×0.1 magnification. The accompanying illustrations depict the sequential release of Dha, escherichelin, pyochelin, and apo-Ybt from multidomain NRPS/PKS enzymes associated with early (green rectangles) and late (blue rectangles) biosynthesis of Ybt (left) and pyochelin (right). Thick black arrows designate the biosynthetic steps at which metabolite intermediates transfer from early to late proteins.