Lipopolysaccharide binding to the periplasmic protein LptA

Lipopolysaccharide (LPS) and the periplasmic protein, LptA, are two essential components of Gram-negative bacteria. LPS, also known as endotoxin, is found asymmetrically distributed in the outer leaflet of the outer membrane of Gram-negative bacteria such as Escherichia coli and plays a role in the organism's natural defense in adverse environmental conditions. LptA is a member of the lipopolysaccharide transport protein (Lpt) family, which also includes LptC, LptDE, and LptBFG(2), that functions to transport LPS through the periplasm to the outer leaflet of the outer membrane after MsbA flips LPS across the inner membrane. It is hypothesized that LPS binds to LptA to cross the periplasm and that the acyl chains of LPS bind to the central pocket of LptA. The studies described here are the first to comprehensively characterize and quantitate the binding of LPS by LptA. Using site-directed spin-labeling electron paramagnetic resonance (EPR) spectroscopy, data were collected for 15 spin-labeled residues in and around the proposed LPS binding pocket on LptA to observe the mobility changes caused by the presence of exogenous LPS and identify the binding location of LPS to LptA. The EPR data obtained suggest a 1:1 ratio for the LPS:LptA complex and allow the first calculation of dissociation constants for the LptA-LPS interaction. The results indicate that the entire protein is affected by LPS binding, the N-terminus unfolds in the presence of LPS, and a mutant LptA protein unable to form oligomers has an altered affinity for LPS.