Abstract
Pseudomonas aeruginosa is a major nosocomial pathogen that infects cystic fibrosis and immunocompromised patients. The impermeability of the P. aeruginosa outer membrane contributes substantially to the notorious antibiotic resistance of this human pathogen. This impermeability is partially imparted by the outer membrane protein H (OprH). Here we have solved the structure of OprH in a lipid environment by solution NMR. The structure reveals an eight-stranded β-barrel protein with four extracellular loops of unequal size. Fast time-scale dynamics measurements show that the extracellular loops are disordered and unstructured. It was previously suggested that the function of OprH is to provide increased stability to the outer membranes of P. aeruginosa by directly interacting with lipopolysaccharide (LPS) molecules. Using in vivo and in vitro biochemical assays, we show that OprH indeed interacts with LPS in P. aeruginosa outer membranes. Based upon NMR chemical shift perturbations observed upon the addition of LPS to OprH in lipid micelles, we conclude that the interaction is predominantly electrostatic and localized to charged regions near both rims of the barrel, but also through two conspicuous tyrosines in the middle of the bilayer. These results provide the first molecular structure of OprH and offer evidence for multiple interactions between OprH and LPS that likely contribute to the antibiotic resistance of P. aeruginosa.
Highlights
Pseudomonas aeruginosa outer membrane protein outer membrane protein H (OprH) has been hypothesized to confer antibiotic resistance by interaction with LPS
Using in vivo and in vitro biochemical assays, we show that OprH interacts with LPS in P. aeruginosa outer membranes
OprH Interacts with LPS in P. aeruginosa Outer Membranes— Using FLAG pulldown assays from membrane lysates of P. aeruginosa bacterial strains containing a vector that expressed OprH with a C-terminal FLAG tag, we tested the hypothesis that OprH binds with LPS in vivo
Summary
Based upon NMR chemical shift perturbations observed upon the addition of LPS to OprH in lipid micelles, we conclude that the interaction is predominantly electrostatic and localized to charged regions near both rims of the barrel, and through two conspicuous tyrosines in the middle of the bilayer These results provide the first molecular structure of OprH and offer evidence for multiple interactions between OprH and LPS that likely contribute to the antibiotic resistance of P. aeruginosa. The cystic fibrosis lung results in antibiotic-resistant biofilms and is the leading cause of mortality in cystic fibrosis patients [2] It is responsible for a majority of urinary tract and burn and wound infections and is the major nosocomial pathogen in hospital settings. We further show that LPS interacts directly with OprH in vitro and in vivo, and we identify interacting residues that could potentially be targeted in future studies aimed at further advancing our understanding of pseudomonal antibiotic resistance
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