Litcius/Paper detail

Effect of Elasticity of Silica Capsules on Cellular Uptake

Xuebin Ma, Xuncheng Yang, Mengqi Li, Jiwei Cui, Peiyu Zhang, Qun Yu, Jingcheng Hao

2021Langmuir20 citationsDOI

Abstract

Understanding the impact of the physicochemical properties of nanoparticles (NPs) on cellular uptake is important to design optimal drug-delivery nanocarriers. Therein, the influence of NP elasticity on bio-nano-interactions remains elusive due to the complexity of factors affecting cellular uptake. Herein, we synthesized SiO2 capsules with tunable elasticity using metal–organic frameworks as templates to investigate their interactions with cells. Young’s moduli of the resultant water-filled SiO2 capsules with identical size, shape, composition, and surface charge can be controlled from 3.8 MPa to 4.7 GPa via the variation of capsule shell thickness. As a result, increased elasticity of SiO2 capsules results in higher cellular uptake. Stiff SiO2 capsules have almost 9 times as much cellular uptake as the soft ones. In addition, the elasticity of SiO2 capsules influences cellular uptake pathways, where the clathrin-mediated pathway is preferred for stiff capsules while the uptake of the soft capsules is mostly mediated by a caveolae-dependent pathway. This work confirms the important role of NP elasticity in nonspecific cell interactions, which can provide a foundational understanding for engineering drug-delivery nanocarriers.

Topics & Concepts

Elasticity (physics)ChemistryBiophysicsChemical engineeringMaterials scienceComposite materialBiologyEngineeringCellular Mechanics and InteractionsBone Tissue Engineering MaterialsCollagen: Extraction and Characterization