Abstract
Gram-negative bacteria possess an asymmetric outer membrane (OM) composed primarily of lipopolysaccharides (LPSs) on the outer leaflet and phospholipids (PLs) on the inner leaflet. The loss of this asymmetry due to mutations in the LPS biosynthesis or transport pathways causes the externalization of PLs to the outer leaflet of the OM and leads to OM permeability defects. Here, we used metabolic labeling to detect a compromised OM in intact bacteria. Phosphatidylcholine synthase expression in Escherichia coli allowed for the incorporation of exogenous propargylcholine into phosphatidyl(propargyl)choline and exogenous 1-azidoethyl-choline (AECho) into phosphatidyl(azidoethyl)choline (AEPC), as confirmed by LC/MS analyses. A fluorescent copper-free click reagent poorly labeled AEPC in intact wild-type cells but readily labeled AEPC from lysed cells. Fluorescence microscopy and flow cytometry analyses confirmed the absence of significant AEPC labeling from intact wild-type E. coli strains and revealed significant AEPC labeling in an E. coli LPS transport mutant (lptD4213) and an LPS biosynthesis mutant (E. coli lpxC101). Our results suggest that metabolic PL labeling with AECho is a promising tool for detecting a compromised bacterial OM, revealing aberrant PL externalization, and identifying or characterizing novel cell-active inhibitors of LPS biosynthesis or transport.
Highlights
Gram-negative bacteria possess an asymmetric outer membrane (OM) composed primarily of lipopolysaccharides (LPSs) on the outer leaflet and phospholipids (PLs) on the inner leaflet
Previous studies have found that Escherichia coli strains with mutations in genes required for LPS biosynthesis or transport, such as lpxC [13] or lptD [8], have permeability defects in their OM compared with their wild-type counterparts [14, 15]
PC was not detected in the control E. coli polar lipid extract (PLE) standard (Fig. 2; sample 2) or in the BW25113 pcs sample grown without Cho (Fig. 2; sample 4), which showed only PE and PG
Summary
Gram-negative bacteria possess an asymmetric outer membrane (OM) composed primarily of lipopolysaccharides (LPSs) on the outer leaflet and phospholipids (PLs) on the inner leaflet The loss of this asymmetry due to mutations in the LPS biosynthesis or transport pathways causes the externalization of PLs to the outer leaflet of the OM and leads to OM permeability defects. The critical OM asymmetry results from the externalization of LPSs from the IM directly to the outer leaflet of the OM by the Lpt pathway [8] and from the removal of any Abbreviations: AECho, 1-azidoethyl-choline; AEPC, phosphatidyl (azidoethyl)choline; Alexa488-DIBO, AlexaFluor488-DIBO alkyne; AlexaFluor488-sDIBO, AlexaFluor488-sDIBO alkyne; Cho, choline; DAG, diacylglycerol; FM 4-64, N-3-triethylammoniumpropyl)-4-(6-(4-(diethy lamino)phenyl)hexatrienyl)-pyridinium dibromide; Kdo, 3-deoxy-d-mannooct-2-ulosonic acid; LB, lysogeny broth; LPS, lipopolysaccharide; MRM, multiple reaction monitoring; OM, outer membrane; PCho, propargylcholine; Pcs, phosphatidylcholine synthase; PL, phospholipid; PLE, polar lipid extract; PPC, phosphatidyl(propargyl)choline. An assay for detecting Gram-negative bacterial PLs would identify compounds that disrupt OM asymmetry, causing an OM permeability defect [9, 17, 18]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
