微塑料和纳米塑料可突破血脑屏障（BBB）：生物分子冠层的作用被揭示。

Micro- and Nanoplastics Breach the Blood-Brain Barrier (BBB): Biomolecular Corona's Role Revealed.

作者信息

Kopatz Verena, Wen Kevin, Kovács Tibor, Keimowitz Alison S, Pichler Verena, Widder Joachim, Vethaak A Dick, Hollóczki Oldamur, Kenner Lukas

机构信息

Division of Experimental and Laboratory Animal Pathology, Department of Pathology, Medical University of Vienna, 1090 Vienna, Austria.

Department for Radiation Oncology, Medical University of Vienna, 1090 Vienna, Austria.

出版信息

Nanomaterials (Basel). 2023 Apr 19;13(8):1404. doi: 10.3390/nano13081404.

DOI:10.3390/nano13081404

PMID:37110989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10141840/

Abstract

Humans are continuously exposed to polymeric materials such as in textiles, car tires and packaging. Unfortunately, their break down products pollute our environment, leading to widespread contamination with micro- and nanoplastics (MNPs). The blood-brain barrier (BBB) is an important biological barrier that protects the brain from harmful substances. In our study we performed short term uptake studies in mice with orally administered polystyrene micro-/nanoparticles (9.55 µm, 1.14 µm, 0.293 µm). We show that nanometer sized particles-but not bigger particles-reach the brain within only 2 h after gavage. To understand the transport mechanism, we performed coarse-grained molecular dynamics simulations on the interaction of DOPC bilayers with a polystyrene nanoparticle in the presence and absence of various coronae. We found that the composition of the biomolecular corona surrounding the plastic particles was critical for passage through the BBB. Cholesterol molecules enhanced the uptake of these contaminants into the membrane of the BBB, whereas the protein model inhibited it. These opposing effects could explain the passive transport of the particles into the brain.

摘要

人类不断接触到纺织品、汽车轮胎和包装等中的聚合材料。不幸的是，它们的分解产物污染了我们的环境，导致微塑料和纳米塑料（MNP）广泛污染。血脑屏障（BBB）是一种重要的生物屏障，可保护大脑免受有害物质侵害。在我们的研究中，我们对口服给予聚苯乙烯微/纳米颗粒（9.55微米、1.14微米、0.293微米）的小鼠进行了短期摄取研究。我们发现，纳米尺寸的颗粒——而非更大尺寸的颗粒——在灌胃后仅2小时内就能到达大脑。为了解其转运机制，我们对存在和不存在各种冠状物的情况下二油酰磷脂酰胆碱（DOPC）双层与聚苯乙烯纳米颗粒的相互作用进行了粗粒度分子动力学模拟。我们发现，围绕塑料颗粒的生物分子冠状物的组成对于穿过血脑屏障至关重要。胆固醇分子增强了这些污染物进入血脑屏障膜的摄取，而蛋白质模型则抑制了这种摄取。这些相反的作用可以解释颗粒向大脑的被动转运。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7f8e/10141840/a62b883ba1fb/nanomaterials-13-01404-g001.jpg

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微塑料和纳米塑料可突破血脑屏障（BBB）：生物分子冠层的作用被揭示。

Micro- and Nanoplastics Breach the Blood-Brain Barrier (BBB): Biomolecular Corona's Role Revealed.

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