4.7 Article

Impact of calcium ions at physiological concentrations on the adsorption behavior of proteins on silica nanoparticles

Journal

JOURNAL OF COLLOID AND INTERFACE SCIENCE
Volume 656, Issue -, Pages 35-46

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcis.2023.11.058

Keywords

Protein corona; Metal ions; Silica nanoparticle; Protein adsorption; Chelation

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This study evaluates the effect of physiological concentrations of calcium ions on the adsorption of proteins on negatively-charged silica nanoparticles. It is found that calcium ions, as well as other metal ions, significantly enhance protein adsorption and reduce nanoparticle uptake by cells. A double-chelating mechanism is proposed to explain the enhanced protein adsorption by multivalent metal ions.
The adsorption of proteins on nanoparticles (NPs) largely decides the fate and bioeffects of NPs in vivo. However, bio-fluids are too complicated to directly study in them to reveal related mechanisms, and current studies on model systems often ignore some important biological factors, such as metal ions. Herein, we evaluate the effect of Ca2+ at physiological concentrations on the protein adsorption on negatively-charged silica NP (SNP50). It is found that Ca2+, as well as Mg2+ and several transition metal ions, significantly enhances the adsorption of negatively-charged proteins on SNP50. Moreover, the Ca2+-induced enhancement of protein adsorption leads to the reduced uptake of SNP50 by HeLa cells. A double-chelating mechanism is proposed for the enhanced adsorption of negatively-charged proteins by multivalent metal ions that can form 6 (or more) coordinate bonds, where the metal ions are chelated by both the surface groups of NPs and the surface residues of the adsorbed proteins. This mechanism is consistent with all experimental evidences from metal ions-induced changes of physicochemical properties of NPs to protein adsorption isotherms, and is validated with several model proteins as well as complicated serum. The findings highlight the importance of investigating the influences of physiological factors on the interaction between proteins and NPs.

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