Hua Yue scite author profile

Chitosan-based nanoparticles (NPs) are widely used in drug delivery, device-based therapy, tissue engineering, and medical imaging. In this aspect, a clear understanding of how physicochemical properties of these NPs affect the cytological response is in high demand. The objective of this study is to evaluate the effect of surface charge on cellular uptake profiles (rate and amount) and intracellular trafficking. We fabricate three kinds of NPs (∼ 215 nm) with different surface charge via SPG membrane emulsification technique and deposition method. They possess uniform size as well as identical other physicochemical properties, minimizing any differences between the NPs except for surface charge. Moreover, we extend our research to eight cell lines, which could help to obtain a representative conclusion. Results show that the cellular uptake rate and amount are both positively correlated with the surface charge in all cell line. Subsequent intracellular trafficking indicates that some of positively charged NPs could escape from lysosome after being internalized and exhibit perinuclear localization, whereas the negatively and neutrally charged NPs prefer to colocalize with lysosome. These results are critical in building the knowledge base required to design chitosan-based NPs to be used efficiently and specifically.

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The role of the lateral dimension of graphene oxide in the regulation of cellular responses

Yue

et al. 2012

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Packaging and delivering enzymes by amorphous metal-organic frameworks

et al. 2019

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Enzymatic catalysis in living cells enables the in-situ detection of cellular metabolites in single cells, which could contribute to early diagnosis of diseases. In this study, enzyme is packaged in amorphous metal-organic frameworks (MOFs) via a one-pot co-precipitation process under ambient conditions, exhibiting 5–20 times higher apparent activity than when the enzyme is encapsulated in corresponding crystalline MOFs. Molecular simulation and cryo-electron tomography (Cryo-ET) combined with other techniques demonstrate that the mesopores generated in this disordered and fuzzy structure endow the packaged enzyme with high enzyme activity. The highly active glucose oxidase delivered by the amorphous MOF nanoparticles allows the noninvasive and facile measurement of glucose in single living cells, which can be used to distinguish between cancerous and normal cells.

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Biomimetic Immuno‐Magnetosomes for High‐Performance Enrichment of Circulating Tumor Cells

et al. 2016

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A novel biomimetic immuno-magnetosome (IMS) is developed by coating a leukocyte membrane (decorated with anti-epithelial cell-adhesion molecule antibody) on a magnetic nanocluster. In addition to the good stability and magnetic controllability, the IMS also exhibits satisfactory binding avidity to circulating tumor cells but stealth property to leukocytes. As a result, rare tumor cells can be effectively enriched with undetectable leukocyte background.

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Hua Yue

Surface Charge Affects Cellular Uptake and Intracellular Trafficking of Chitosan-Based Nanoparticles

The role of the lateral dimension of graphene oxide in the regulation of cellular responses

Packaging and delivering enzymes by amorphous metal-organic frameworks

Biomimetic Immuno‐Magnetosomes for High‐Performance Enrichment of Circulating Tumor Cells

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