热力学漏斗驱动 TLR4 途径中细菌脂多糖的转移。

A Thermodynamic Funnel Drives Bacterial Lipopolysaccharide Transfer in the TLR4 Pathway.

机构信息

Bioinformatics Institute (BII), Agency for Science, Technology and Research (A(∗)STAR), Matrix 07-01, 30 Biopolis Street, Singapore, 138671 Singapore.

Bioinformatics Institute (BII), Agency for Science, Technology and Research (A(∗)STAR), Matrix 07-01, 30 Biopolis Street, Singapore, 138671 Singapore; School of Chemistry, University of Southampton, Highfield, Southampton SO17 1BJ, UK.

出版信息

Structure. 2018 Aug 7;26(8):1151-1161.e4. doi: 10.1016/j.str.2018.04.007. Epub 2018 May 17.

DOI:10.1016/j.str.2018.04.007

PMID:29779787

Abstract

The Gram-negative bacterial outer membrane contains lipopolysaccharide, which potently stimulates the mammalian innate immune response. This involves a relay of specialized complexes culminating in transfer of lipopolysaccharide from CD14 to Toll-like receptor 4 (TLR4) and its co-receptor MD-2 on the cell surface, leading to activation of downstream inflammatory responses. In this study we develop computational models to trace the TLR4 cascade in near-atomic detail. We demonstrate through rigorous thermodynamic calculations that lipopolysaccharide molecules traversing the receptor cascade fall into a thermodynamic funnel. An affinity gradient for lipopolysaccharide is revealed upon extraction from aggregates or realistic bacterial outer membrane models and transfer through CD14 to the terminal TLR4/MD-2 receptor-co-receptor complex. We subsequently assemble viable CD14/TLR4/MD-2 oligomers at the plasma membrane surface, and observe lipopolysaccharide exchange between CD14 and TLR4/MD-2. Collectively, this work helps to unravel the key structural determinants governing endotoxin recognition in the TLR4 innate immune pathway.

摘要

革兰氏阴性菌外膜含有脂多糖，脂多糖能强烈刺激哺乳动物先天免疫反应。这涉及一系列专门的复合物，最终将脂多糖从 CD14 转移到细胞表面的 Toll 样受体 4（TLR4）及其共受体 MD-2，导致下游炎症反应的激活。在这项研究中，我们开发了计算模型来追踪 TLR4 级联反应的近原子细节。我们通过严格的热力学计算证明，穿过受体级联的脂多糖分子落入热力学漏斗中。从聚集物或现实细菌外膜模型中提取并通过 CD14 转移到末端 TLR4/MD-2 受体-共受体复合物时，脂多糖的亲和力梯度被揭示出来。我们随后在质膜表面组装可行的 CD14/TLR4/MD-2 低聚物，并观察到 CD14 和 TLR4/MD-2 之间的脂多糖交换。总的来说，这项工作有助于揭示 TLR4 先天免疫途径中内毒素识别的关键结构决定因素。

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热力学漏斗驱动 TLR4 途径中细菌脂多糖的转移。

A Thermodynamic Funnel Drives Bacterial Lipopolysaccharide Transfer in the TLR4 Pathway.

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