Understanding the Kinetics of Protein–Nanoparticle Corona Formation

Oriol Vilanova(Institut de Nanociència i Nanotecnologia de la Universitat de Barcelona), Judith J. Mittag(Center for NanoScience), Philip M. Kelly(University College Dublin), Silvia Milani(Center for NanoScience), Kenneth A. Dawson(University College Dublin), Joachim O. Rädler(Center for NanoScience), Giancarlo Franzese(Institut de Nanociència i Nanotecnologia de la Universitat de Barcelona)
ACS Nano
November 9, 2016
10.1021/acsnano.6b04858
Cited by 280Open Access
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Abstract

s) and (ii) its final composition for silica NPs in a model plasma made of three blood proteins (human serum albumin, transferrin, and fibrinogen). When computer simulations are calibrated by experimental protein-NP binding affinities measured in single-protein solutions, the theoretical model correctly reproduces competitive protein replacement as proven by independent experiments. When we change the order of administration of the three proteins, we observe a memory effect in the final corona composition that we can explain within our model. Our combined experimental and computational approach is a step toward the development of systematic prediction and control of protein-NP corona composition based on a hierarchy of equilibrium protein binding constants.

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