Biophysical Impact of Lipid A Modification Caused by Mobile Colistin Resistance Gene on Bacterial Outer Membranes
Wendong Ma, Xukai Jiang, Yujiang Dou, Zhihong Zhang, Jian Li, Bing Yuan, Kai Yang
Abstract
Expression of mobile colistin resistance gene mcr-1 results in the addition of phosphoethanolamine (pEtN) to the lipid A headgroup in the bacterial outer membrane (OM) of Gram-negative bacteria, increasing the resistance to the last-line polymyxins. However, the potential biological consequences of such modification remain unclear. Using coarse-grained molecular simulations with quantitative lipidomics models, we discovered pEtN modification of the lipid A headgroup caused substantial changes to the morphology and physicochemical properties of the OM. Single-lipid level structural and energetic analyses revealed that this modification resulted in lipid A-pEtN adopting an abnormally twisted and slanted conformation with a closer packing state because of strengthened inter-lipid attraction. The consequent accumulation of lipid A-pEtN produced a negative curvature of the OM and altered the membrane’s tension, fluidity, and rigidity. Our results provide a key mechanistic connection between mcr-1 expression and biophysical changes in the bacterial OM.