Gokce Engudar scite author profile

At the nano-bio interface, human plasma differentially interacts with engineered nanomaterials through the creation of protein coronas, which in turn become primary determinants of both the pharmacokinetics and pharmacodynamics of circulating nanoparticles. Here, for the first time, the specific binding kinetics of the four major corona forming proteins (human serum albumin, fibrinogen, ApoA1, and polyclonal IgG) are determined for gold nanoparticles (AuNPs). Using a multiplexed surface plasmonic assay, highly reproducible measurements of on rate (k(on)), off rate (k(off)), and disassociation constant (K(D)), in addition to relative amounts of protein binding, are obtained. Dramatic differences in k(on) for individual components are shown as primary determinants of protein affinities, with k(on) ranging over nearly two orders of magnitude for the proteins studied, while k(off) remains within a factor of two for the set. The effect of polyethylene glycol (PEG) modification on plasma component binding is also studied and the effect of PEG length on human serum interaction is characterized through systematic screening of PEG molecular weight (2-30k). The effect of nanoparticle modification on particle targeting is also characterized through study of a hybrid AuNP system.

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Protein Corona Formed from Different Blood Plasma Proteins Affects the Colloidal Stability of Nanoparticles Differently

Azman

Loh

et al. 2018

Bioconjugate Chem.

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Significant progress in the characterization of protein corona has been made. However, insights on how the corona affects the aggregation of nanoparticles (NPs) and consequent biological identity are still lacking. Here, we examined how the corona formed from four major serum proteins, immunoglobulin G (IgG), fibrinogen (FBG), apolipoprotein A1 (ApoA1), and human serum albumin (HSA), over a range of concentrations affects the aggregation of gold NPs (AuNPs). We found that at physiological pH of 7.4, all four proteins aggregated the AuNPs at low concentrations but conferred colloidal stability at high concentrations due to the complete "corona coat" around individual AuNPs. Due to their immune-related functions, IgG and FBG aggregated the AuNPs to a greater extent compared to HSA and ApoA1 which were mostly involved in transport of small molecules. We then introduced the AuNP-corona formed from each protein into an acidic solution at pH 6.2 with high ionic concentration for up to 24 h as a model of the tumor microenvironment to examine for changes in their aggregation. We observed that protein corona formation sterically stabilized the AuNP-corona for all four proteins, resulting in a smaller increase in aggregation and size compared to citratecapped AuNPs. This was especially true for corona formed at high protein:AuNP ratios. Our study therefore showed that the formation of a complete "corona coat" around NPs at sufficiently high protein:NP ratio was required for colloidal stability of designed NP systems in both physiological and cancer microenvironment to maintain efficiency and efficacy in cancer drug delivery.

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Gold nanorods in photomedicine

Kah

Yeo

et al. 2015

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Gokce Engudar

Component‐Specific Analysis of Plasma Protein Corona Formation on Gold Nanoparticles Using Multiplexed Surface Plasmon Resonance

Protein Corona Formed from Different Blood Plasma Proteins Affects the Colloidal Stability of Nanoparticles Differently

Gold nanorods in photomedicine

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