两亲性碳硅烷树突对脂质模型膜的影响

IF 3.4 3区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Chemistry and Physics of Lipids Pub Date : 2023-09-01 DOI:10.1016/j.chemphyslip.2023.105314
Dominika Wrobel , Antonin Edr , Eliska Zemanova , Tomáš Strašák , Alena Semeradtova , Jan Maly
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引用次数: 0

摘要

两亲性树突是一类相对较新的分子,具有许多独特的性质,适合应用于分子生物学和纳米医学领域。它们经常被研究为适合于药物递送系统的平台,例如聚合体或混合脂质-聚合物纳米颗粒。近年来,被称为外泌体(EXs)的天然细胞外脂质囊泡(ev)被证明是一种很有前途的药物传递应用候选者。外泌体-树突杂交纳米囊泡的形成可以带来与选择性靶向部分简单结合的好处。不幸的是,包括EXs在内的生物膜的复杂结构在阐明与人工两亲性结构相互作用的重要参数和机制方面存在障碍。本研究的目的是研究两种两亲性碳硅烷树突结构(分别表示为DDN-1和DDN-2)与中性和带负电的脂质模型膜(部分模仿天然EXs生物膜的基本性质)的相互作用,这些结构适合用链霉亲和素(DDN-1)或点击化学方法(DDN-2)进行进一步修饰。为了实现这一目标,使用了许多生物物理方法来确定相互作用的程度和机制。结果表明,两亲性树突与脂质体的相互作用强度与脂质体的表面电荷有关。披露了几个相互作用的步骤。初始化步骤主要与两亲性树突-脂质体表面相互作用耦合,导致大型自组装两亲性树突结构的不稳定。这种不稳定作用在负电荷较高的脂质体中更为明显。随着溶液中两亲树突浓度的增加,这种相互作用也发生在双分子层的疏水部分。纳米颗粒浓度的进一步增加导致脂质双分子层结构中逐渐形成树突状簇。由于两亲性树突对脂质双层的高亲和力,可以得出结论,它们也为外泌体或其他天然脂质载体的装饰提供了很好的平台。这种有组织的杂交树突-脂质生物膜可能有利于它们随后与适合靶向药物递送或治疗应用的小分子、大生物大分子或聚合物的后功能化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The influence of amphiphilic carbosilane dendrons on lipid model membranes

Amphiphilic dendrons represent a relatively novel class of molecules which may show many unique properties suitable for applications in a field of molecular biology and nanomedicine. They were frequently studied as platforms suitable for drug delivery systems as were, e.g. polymersomes or hybrid lipid-polymer nanoparticles. Recently, natural extracellular lipid vesicles (EVs), called exosomes (EXs), were shown to be a promising candidate in drug delivery applications. Formation of hybrid exosome-dendron nanovesicles could bring benefits in their simple conjugation with selective targeting moieties. Unfortunately, the complex architecture of biological membranes, EXs included, makes obstacles in elucidating the important parameters and mechanisms of interaction with the artificial amphiphilic structures.

The aim of the presented work was to study the interaction of two types of amphiphilic carbosilane dendritic structures (denoted as DDN-1 and DDN-2) suitable for further modification with streptavidin (DDN-1) or using click-chemistry approach (DDN-2), with selected neutral and negatively charged lipid model membranes, partially mimicking the basic properties of natural EXs biomembranes. To meet the goal, a number of biophysical methods were used for determination of the degree and mechanisms of the interaction. The results showed that the strength of interactions of amphiphilic dendrons with liposomes was related with surface charge of liposomes. Several steps of interactions were disclosed. The initialization step was mainly coupled with amphiphilic dendrons - liposomes surface interaction resulting in destabilization of large self-assembled amphiphilic dendrons structures. Such destabilization was more significant with liposomes of higher negative charge. With increasing concentration of amphiphilic dendrons in a solution the interactions were taking place also in the hydrophobic part of bilayer. Further increase of nanoparticle concentration resulted in a gradual dendritic cluster formation in a lipid bilayer structure.

Due to high affinity of amphiphilic dendrons to model lipid bilayers the conclusion can be drawn that they represent promising platforms also for decoration of exosomes or other kinds of natural lipid vehicles. Such organized hybrid dendron-lipid biomembranes may be advantageous for their subsequent post-functionalization with small molecules, large biomacromolecules or polymers suitable for targeted drug-delivery or theranostic applications.

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来源期刊
Chemistry and Physics of Lipids
Chemistry and Physics of Lipids 生物-生化与分子生物学
CiteScore
7.60
自引率
2.90%
发文量
50
审稿时长
40 days
期刊介绍: Chemistry and Physics of Lipids publishes research papers and review articles on chemical and physical aspects of lipids with primary emphasis on the relationship of these properties to biological functions and to biomedical applications. Accordingly, the journal covers: advances in synthetic and analytical lipid methodology; mass-spectrometry of lipids; chemical and physical characterisation of isolated structures; thermodynamics, phase behaviour, topology and dynamics of lipid assemblies; physicochemical studies into lipid-lipid and lipid-protein interactions in lipoproteins and in natural and model membranes; movement of lipids within, across and between membranes; intracellular lipid transfer; structure-function relationships and the nature of lipid-derived second messengers; chemical, physical and functional alterations of lipids induced by free radicals; enzymatic and non-enzymatic mechanisms of lipid peroxidation in cells, tissues, biofluids; oxidative lipidomics; and the role of lipids in the regulation of membrane-dependent biological processes.
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