基于qcm的纳米颗粒体内行为预测新方法

M. Gianneli , Y. Yan , E. Polo , D. Peiris , T. Aastrup , K.A. Dawson
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引用次数: 6

摘要

在生物流体中,蛋白质和其他生物分子与纳米颗粒表面结合,形成一层被称为蛋白质冠的涂层,这反过来又成为纳米颗粒命运和行为的主要决定因素。在这里,我们开发了一个基于qcm的平台和方法来获取纳米颗粒与选定的人血浆蛋白的实时相互作用数据。将转铁蛋白包被的聚苯乙烯颗粒固定在QCM传感器芯片上,通过“三明治”格式的结合实验,可以通过传感器共振频率的增加来量化颗粒上的特定表位。细胞结合实验,贴壁细胞直接生长在传感器表面也进行。注射到细胞表面的纳米颗粒的相互作用仅在颗粒-转铁蛋白复合物的情况下被观察到,这表明它是纳米颗粒-电晕复合物,而不是“细胞所看到的”天然纳米颗粒,电晕是纳米颗粒和细胞系统之间的界面。我们的数据突出了提出的基于qcm的平台和方法的潜力,用于表征生物纳米界面,并在现实环境中跟踪纳米颗粒与生物细胞的相互作用。
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Novel QCM-based Method to Predict in Vivo Behaviour of Nanoparticles

In biological fluids, proteins and other biomolecules bind to the surface of nanoparticles to form a coating known as the protein corona which in turn becomes primary determinant of the nanoparticles’ fate and behaviour. Here we develop a QCM-based platform and methodology to obtain data from real-time interactions of nanoparticles with selected human plasma proteins. Polystyrene particles coated with transferrin are immobilized on QCM sensor chips and by means of a ‘sandwich’ format binding assay, specific epitopes on the particles can be quantified as measured by the increase of the sensor's resonant frequency. Cell binding experiments where adherent cells are directly grown on the sensor surface are also performed. Interaction of nanoparticles injected over the cell surface is observed only in the case of particle-transferrin complexes demonstrating that it is the nanoparticle-corona complex, rather than the native nanoparticle, “what the cell sees”, with the corona being the interface between the nanoparticle and the cellular system. Our data highlight the potential of the proposed QCM-based platform and methodology for characterization of the bio-nano-interface and tracking the interaction of nanoparticles with biological cells in the presence of a realistic milieu.

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