Naphthylated LEGO-lipophosphonoxin antibiotics used as a fluorescent tool for the observation of target membrane perturbations preceding its disruption.

IF 2.4 3区 化学 Q3 CHEMISTRY, ANALYTICAL
Tereza Dolejšová, Petra Lišková, Nitjawan Sahatsapan, Viktor Mojr, Radek Pohl, Hana Brzobohatá, Milica Dugić, Tomáš Křížek, Lukasz Cwiklik, Gabriela Mikušová, Dominik Rejman, Radovan Fišer
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引用次数: 0

Abstract

Linker-Evolved-Group-Optimized-Lipophosphonoxins (LEGO-LPPO) are small synthetic modular peptidomimetics with promising antimicrobial activity. The LEGO-LPPO mechanism of antibacterial action has been determined to be the depolarization and disruption of bacterial membranes. Their modular nature is advantageous for fine tuning their biological properties. In order to optimize the structure of LEGO-LPPO even further, it is important to understand the interaction of LEGO-LPPO with bacterial membranes at the molecular level. In this work, we present the synthesis of five LEGO-LPPO (designated as1_naph2-4-G to5_naph2-4-G) molecules bearing fluorescent naphtylethyl moieties and their usage in the study of LEGO-LPPO behaviour in the membrane. Our goal was to characterize fluorescently labelled LEGO-LPPO under conditions that do not completely disrupt the membrane, mostly in the form of membrane-bound monomers. We observed the intramolecular interactions of hydrophobic modules of1_naph2-4-G in the buffer by detecting dynamic naphthyl excimers and their disappearance after1_naph2-4-G bind into the membranes. In the membrane, the molecule1_naph2-4-G slightly affects the membrane fluidity of DOPG membranes above the phase transition. The naphthyl fluorophore itself has fast and almost unrestricted rotation around ethylene linking groups (rinf= 0.010), which indicates a considerable chaotropic effect of the hydrophobic modules of1_naph2-4-G at the given depth of the membrane.1_naph2-4-G proved to be a useful model for observing the interaction of LEGO-LPPO antibiotics with the phospholipid bilayer enabling us to decipher its effects on membrane state and dynamics; its binding and penetration into the membrane, its structure and the particular depth that it occupies.

萘基 LEGO-lipophopsphonoxin 抗生素被用作一种荧光工具,用于观察目标膜在被破坏之前的扰动。
Linker-Evolved-Group-Optimized-Liposphonoxins (LEGO-LPPO)是一种具有良好抗菌活性的小型合成模块化拟肽化合物。LEGO-LPPO 的抗菌作用机制已被确定为去极化和破坏细菌膜。它们的模块化特性有利于微调其生物特性。为了进一步优化 LEGO-LPPO 的结构,了解 LEGO-LPPO 与细菌膜在分子水平上的相互作用非常重要。在这项工作中,我们合成了五种带有荧光萘乙基分子的 LEGO-LPPO(命名为 1_naph2-4-G 至 5_naph2-4-G)分子,并将它们用于研究 LEGO-LPPO 在膜中的行为。我们的目标是在不完全破坏膜的条件下,主要以膜结合单体的形式对荧光标记的 LEGO-LPPO 进行表征。我们通过检测动态萘基赋形剂来观察 1_naph2-4-G 在缓冲液中疏水模块的分子内相互作用,以及它们在 1_naph2-4-G 与膜结合后的消失情况。在膜中,1_naph2-4-G 分子会轻微影响相变以上 DOPG 膜的膜流动性。萘基荧光团本身围绕乙烯连接基团具有快速且几乎不受限制的旋转(rinf=0.010),这表明 1_naph2-4-G 的疏水模块在膜的特定深度具有相当大的乱向效应。事实证明,1_naph2-4-G 是观察 LEGO-LPPO 抗生素与磷脂双分子层相互作用的有用模型,使我们能够破译它对膜状态和动态的影响、它对膜的结合和渗透、它的结构以及它占据的特定深度。
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来源期刊
Methods and Applications in Fluorescence
Methods and Applications in Fluorescence CHEMISTRY, ANALYTICALCHEMISTRY, PHYSICAL&n-CHEMISTRY, PHYSICAL
CiteScore
6.20
自引率
3.10%
发文量
60
期刊介绍: Methods and Applications in Fluorescence focuses on new developments in fluorescence spectroscopy, imaging, microscopy, fluorescent probes, labels and (nano)materials. It will feature both methods and advanced (bio)applications and accepts original research articles, reviews and technical notes.
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