Pseudomonas aeruginosa utilizes the host-derived polyamine spermidine to facilitate antimicrobial tolerance
Chowdhury M. Hasan, … , Daniel R. Neill, Joanne L. Fothergill
Chowdhury M. Hasan, … , Daniel R. Neill, Joanne L. Fothergill
Published October 4, 2022
Citation Information: JCI Insight. 2022;7(22):e158879. https://doi.org/10.1172/jci.insight.158879.
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Research Article Infectious disease Microbiology

Pseudomonas aeruginosa utilizes the host-derived polyamine spermidine to facilitate antimicrobial tolerance

Abstract

Pseudomonas aeruginosa undergoes diversification during infection of the cystic fibrosis (CF) lung. Understanding these changes requires model systems that capture the complexity of the CF lung environment. We previously identified loss-of-function mutations in the 2-component regulatory system sensor kinase gene pmrB in P. aeruginosa from CF lung infections and from experimental infection of mice. Here, we demonstrate that, while such mutations lowered in vitro minimum inhibitory concentrations for multiple antimicrobial classes, this was not reflected in increased antibiotic susceptibility in vivo. Loss of PmrB impaired aminoarabinose modification of LPS, increasing the negative charge of the outer membrane and promoting uptake of cationic antimicrobials. However, in vivo, this could be offset by increased membrane binding of other positively charged molecules present in lungs. The polyamine spermidine readily coated the surface of PmrB-deficient P. aeruginosa, reducing susceptibility to antibiotics that rely on charge differences to bind the outer membrane and increasing biofilm formation. Spermidine was elevated in lungs during P. aeruginosa infection in mice and during episodes of antimicrobial treatment in people with CF. These findings highlight the need to study antimicrobial resistance under clinically relevant environmental conditions. Microbial mutations carrying fitness costs in vitro may be advantageous during infection, where host resources can be utilized.

Authors

Chowdhury M. Hasan, Sian Pottenger, Angharad E. Green, Adrienne A. Cox, Jack S. White, Trevor Jones, Craig Winstanley, Aras Kadioglu, Megan H. Wright, Daniel R. Neill, Joanne L. Fothergill

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Figure 5

Prolonged interaction with environmental spermidine in PmrB-deficient P.

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Prolonged interaction with environmental spermidine in PmrB-deficient P....
aeruginosa. (A) LESB65 and (B) LESB65ΔpmrB from mid-log cultures were incubated for 30 minutes with unlabeled spermidine (blue histogram) or spermidine-NBD (all other histograms), then pelleted, washed in saline, and resuspended in polyamine-free PBS. Spermidine-NBD binding to P. aeruginosa was determined by flow cytometry at 0, 30, 60, 120, 180 and 240 minutes after coincubation. Data are representative of 2 independent experiments, with n = 5 samples per group. (C) Spermidine was coincubated with LESB65 (red bars) or LESB65ΔpmrB (blue bars) for 30 minutes in PBS or in CF sputum. Bacteria were the pelleted, washed in saline and resuspended in PBS or CF sputum. Fluorescence was determined after 30 minutes by flow cytometry. Significance was determined by 2-way ANOVA with Šidák’s multiple comparison test. Data are representative of 2 independent experiments, with n = 4 samples per group. Data are shown as mean ± SD. (D) Representative flow cytometry histograms of LESB65 and LESB65ΔpmrB following 30 minutes in the presence (solid lines) or absence (dashed lines) of spermidine-NBD.