Protein Adsorption on Nano- and Microparticles: Dependence on Morphological and Physicochemical Properties of Particles and Effect on Particle–Cell Interactions

Protein Adsorption on Nano- and Microparticles: Dependence on Morphological and Physicochemical Properties of Particles and Effect on Particle–Cell Interactions

Engineered nano- and microparticles are considered as promising tools in biomedical applications, such as imaging, sensing, and drug delivery. Protein adsorption on these particles in biological media is an important factor affecting their properties, cellular interactions, and biological fate. Unde...

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Bibliographic Details
Main Authors: Evgeniia Gerasimovich, Alexander Karaulov, Igor Nabiev, Alyona Sukhanova
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Nanomaterials
Subjects:
protein adsorption
nanoparticles
microparticles
protein corona
particle–cell interactions
drug delivery
Online Access:https://www.mdpi.com/2079-4991/15/13/1013
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Summary:Engineered nano- and microparticles are considered as promising tools in biomedical applications, such as imaging, sensing, and drug delivery. Protein adsorption on these particles in biological media is an important factor affecting their properties, cellular interactions, and biological fate. Understanding the parameters determining the efficiency and pattern of protein adsorption is crucial for the development of effective biocompatible particle-based applications. This review focuses on the influence of the morphological and physicochemical properties of particles on protein adsorption, including the pattern and amount of the adsorbed protein species, as well as the relative abundance of proteins with specific functions or physicochemical parameters. The effects of functionalization of the particle surface with polyethylene glycol, zwitterions, zwitterionic polymers, or proteins on the subsequent protein adsorption are analyzed. In addition, the dependences of protein adsorption on the protein species, biological buffers, fluids, tissues, and other experimental conditions are looked into. The influence of protein adsorption on the targeting efficiency of particle-based delivery systems is also discussed. Finally, the effect of the adsorbed protein corona on the interaction of the engineered micro- and nanoparticles with cells and the roles of specific proteins adsorbed on the particle surface in the recognition of the particles by the immune system are considered.
ISSN:2079-4991

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