化学
外体
可视化
分泌物
高分辨率
活体细胞成像
时间分辨率
图像分辨率
微泡
纳米技术
生物物理学
细胞生物学
计算生物学
遥感
人工智能
生物化学
小RNA
光学
细胞
物理
地质学
计算机科学
材料科学
基因
生物
作者
Xin Ji,Jinrui Zhang,Yu Qiu,Yan Shi,Lina Shao,Huili Wang,Huili Wang,Jing Gao,Mingjun Cai,Yangang Pan,Haijiao Xu,Hongda Wang,Hongda Wang
标识
DOI:10.1021/acs.analchem.4c04690
摘要
Exosomes are small endosome-derived extracellular vesicles that participate in cell-cell communication, particularly in the context of tumorigenesis, and their secretion is influenced by the tumor microenvironment. While previous studies suggest that mechanical forces may enhance exosome release, the direct relationship between these forces and exosome secretion needs to be further characterized. Here, we utilized dual-color CD63 reporter-based high-speed live-cell imaging to visualize how mechanical forces influence exosome release in situ. Through live-cell tracking, we observed the dynamic fusion of multivesicular bodies (MVBs) with the plasma membrane (PM) to release exosomes at the single-vesicle level. More importantly, we directly detected a real-time stimulatory effect of mechanical forces on exosome release, with a bulk release of exosomes occurring under mechanical pressure stimulation. Furthermore, we identified mechanical force-induced actin rearrangement as a crucial determinant of exosome release. Our findings provide direct insights into the role of mechanical forces in exosome release and lay the groundwork for developing potential strategies to target disease-derived exosomes from their source.
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