基于膜脂质组学的分子动力学模拟揭示了多粘菌素与鲍曼不动杆菌脂多糖外膜的结构-相互作用关系。

Molecular dynamics simulations informed by membrane lipidomics reveal the structure-interaction relationship of polymyxins with the lipid A-based outer membrane of Acinetobacter baumannii.

机构信息

Biomedicine Discovery Institute, Infection & Immunity Program and Department of Microbiology, Monash University, Melbourne, Australia.

Centre for Soft Condensed Matter Physics and Interdisciplinary Research & School of Physical Science and Technology, Soochow University, Suzhou, China.

出版信息

J Antimicrob Chemother. 2020 Dec 1;75(12):3534-3543. doi: 10.1093/jac/dkaa376.

DOI:10.1093/jac/dkaa376

PMID:32911540

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7662177/

Abstract

BACKGROUND

MDR bacteria represent an urgent threat to human health globally. Polymyxins are a last-line therapy against life-threatening Gram-negative 'superbugs', including Acinetobacter baumannii. Polymyxins exert antimicrobial activity primarily via permeabilizing the bacterial outer membrane (OM); however, the mechanism of interaction between polymyxins and the OM remains unclear at the atomic level.

METHODS

We constructed a lipid A-based OM model of A. baumannii using quantitative membrane lipidomics data and employed all-atom molecular dynamics simulations with umbrella sampling techniques to elucidate the structure-interaction relationship and thermodynamics governing the penetration of polymyxins [B1 and E1 (i.e. colistin A) representing the two clinically used polymyxins] into the OM.

RESULTS

Polymyxin B1 and colistin A bound to the A. baumannii OM by the initial electrostatic interactions between the Dab residues of polymyxins and the phosphates of lipid A, competitively displacing the cations from the headgroup region of the OM. Both polymyxin B1 and colistin A formed a unique folded conformation upon approaching the hydrophobic centre of the OM, consistent with previous experimental observations. Polymyxin penetration induced reorientation of the headgroups of the OM lipids near the penetration site and caused local membrane disorganization, thereby significantly increasing membrane permeability and promoting the subsequent penetration of polymyxin molecules into the OM and periplasmic space.

CONCLUSIONS

The thermodynamics governing the penetration of polymyxins through the outer leaflet of the A. baumannii OM were examined and novel structure-interaction relationship information was obtained at the atomic and membrane level. Our findings will facilitate the discovery of novel polymyxins against MDR Gram-negative pathogens.

摘要

背景

耐多药细菌对全球人类健康构成了紧迫威胁。多黏菌素是治疗危及生命的革兰氏阴性“超级细菌”，包括鲍曼不动杆菌的最后一线治疗药物。多黏菌素主要通过破坏细菌外膜（OM）发挥抗菌活性；然而，多黏菌素与 OM 之间的相互作用机制在原子水平上仍不清楚。

方法

我们使用定量膜脂质组学数据构建了鲍曼不动杆菌的基于脂质 A 的 OM 模型，并采用全原子分子动力学模拟与伞形采样技术，阐明了多黏菌素[B1 和 E1（即多黏菌素 A），代表两种临床使用的多黏菌素]进入 OM 的结构-相互作用关系和热力学。

结果

多黏菌素 B1 和多黏菌素 A 通过多黏菌素 Dab 残基与脂质 A 磷酸之间的初始静电相互作用与鲍曼不动杆菌 OM 结合，竞争性地将阳离子从 OM 的头基区域置换出来。多黏菌素 B1 和多黏菌素 A 在接近 OM 的疏水区中心时都形成了独特的折叠构象，这与之前的实验观察结果一致。多黏菌素的穿透诱导 OM 脂质的头基在穿透部位附近重新定向，并导致局部膜去组织化，从而显著增加膜通透性，并促进多黏菌素分子随后穿透 OM 和周质空间。

结论

研究了多黏菌素通过鲍曼不动杆菌 OM 外叶穿透的热力学，并在原子和膜水平上获得了新的结构-相互作用关系信息。我们的发现将有助于发现针对耐多药革兰氏阴性病原体的新型多黏菌素。

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