期刊
SMALL
卷 -, 期 -, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.202301888
关键词
cellular protrusion; extracellular adsorptions; extracellular matrix; nanovesicles; single particle tracking
Vigorous nanomedicine offers significant possibilities for effective therapeutics, and nanovesicles (NVs), including liposomes, exosomes, and cytomembranes, show great potential. However, the complex interactions between NVs and cells, especially the heterogeneous extracellular adsorptions, are difficult to analyze due to transient dynamics. This study tracks single NVs to directly observe extracellular adsorptions and reveals their heterogeneous characteristics. The spatiotemporal tracking provides insights into NVs-cell interactions and inspires nano-investigations in nanomedicine.
The vigorous nanomedicine offers significant possibilities for effective therapeutics of various diseases, and nanovesicles (NVs) represented by artificial liposomes and natural exosomes and cytomembranes especially show great potential. However, their complex interactions with cells, particularly the heterogeneous extracellular adsorptions, are difficult to analyze spatiotemporally due to the transient dynamics. In this study, by single NVs tracking, the extracellular NVs adsorptions are directly observed and their heterogeneous characteristics are revealed. Briefly, plenty of NVs adsorbed on HCT116 cells are tracked and classified, and it is discovered that they exhibit various diffusion properties from different extracellular regions: stable adsorptions on the rear surface and restricted adsorptions on the front protrusion. After the hydrolysis of hyaluronic acid in the extracellular matrix by hyaluronidase, the restricted adsorptions are further weakened and manifested as dissociative adsorptions, which demonstrated reduced total NVs adsorptions from a single-cell and single-particle perspective. Compared with traditional static analysis, the spatiotemporal tracking and heterogeneous results not only reveal the extracellular NVs-cell interactions but also inspire a wide variety of nanomedicine and their nano-investigations.
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