金纳米颗粒与模型膜相互作用的尺寸依赖性。

Size dependency of gold nanoparticles interacting with model membranes.

作者信息

Contini Claudia, Hindley James W, Macdonald Thomas J, Barritt Joseph D, Ces Oscar, Quirke Nick

机构信息

Department of Chemistry, Molecular Sciences Research Hub, Imperial College London, White City Campus, Wood Lane, W12 0BZ London, UK.

Institute of Chemical Biology, Molecular Sciences Research Hub, Imperial College London, White City Campus, Wood Lane, W12 0BZ London, UK.

出版信息

Commun Chem. 2020 Sep 17;3(1):130. doi: 10.1038/s42004-020-00377-y.

DOI:10.1038/s42004-020-00377-y

PMID:33829115

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7610534/

Abstract

The rapid development of nanotechnology has led to an increase in the number and variety of engineered nanomaterials in the environment. Gold nanoparticles (AuNPs) are an example of a commonly studied nanomaterial whose highly tailorable properties have generated significant interest through a wide range of research fields. In the present work, we characterise the AuNP-lipid membrane interaction by coupling qualitative data with quantitative measurements of the enthalpy change of interaction. We investigate the interactions between citrate-stabilised AuNPs ranging from 5 to 60 nm in diameter and large unilamellar vesicles acting as a model membrane system. Our results reveal the existence of two critical AuNP diameters which determine their fate when in contact with a lipid membrane. The results provide new insights into the size dependent interaction between AuNPs and lipid bilayers which is of direct relevance to nanotoxicology and to the design of NP vectors.

摘要

纳米技术的快速发展导致环境中工程纳米材料的数量和种类不断增加。金纳米颗粒（AuNPs）是一种常见的被研究纳米材料，其高度可定制的特性在广泛的研究领域引起了极大的兴趣。在本工作中，我们通过将定性数据与相互作用焓变的定量测量相结合，来表征金纳米颗粒与脂质膜的相互作用。我们研究了直径在5到60纳米之间的柠檬酸盐稳定的金纳米颗粒与作为模型膜系统的大单层囊泡之间的相互作用。我们的结果揭示了存在两个关键的金纳米颗粒直径，它们决定了金纳米颗粒与脂质膜接触时的命运。这些结果为金纳米颗粒与脂质双层之间的尺寸依赖性相互作用提供了新的见解，这与纳米毒理学和纳米颗粒载体的设计直接相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3dcc/9814225/a7844565ebdd/42004_2020_377_Fig1_HTML.jpg

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金纳米颗粒与模型膜相互作用的尺寸依赖性。

Size dependency of gold nanoparticles interacting with model membranes.

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