Ultrasound-Responsive Biomimetic Superhydrophobic Drug-Loaded Mesoporous Silica Nanoparticles for Treating Prostate Tumor

声动力疗法 阿霉素 介孔二氧化硅 超声波 Zeta电位 药物输送 纳米颗粒 化学 生物物理学 材料科学 活性氧 纳米技术 化疗 介孔材料 医学 生物化学 外科 催化作用 生物 放射科
作者
Qiaofeng Jin,Dandan Chen,Yishu Song,Tianshu Liu,Wenqu Li,Yihan Chen,Xiaojuan Qin,Li Zhang,Jing Wang,Mingxing Xie
出处
期刊:Pharmaceutics [Multidisciplinary Digital Publishing Institute]
卷期号:15 (4): 1155-1155 被引量:5
标识
DOI:10.3390/pharmaceutics15041155
摘要

Interfacial nanobubbles on a superhydrophobic surface can serve as ultrasound cavitation nuclei for continuously promoting sonodynamic therapy, but their poor dispersibility in blood has limited their biomedical application. In this study, we proposed ultrasound-responsive biomimetic superhydrophobic mesoporous silica nanoparticles, modified with red blood cell membrane and loaded with doxorubicin (DOX) (F-MSN-DOX@RBC), for RM-1 tumor sonodynamic therapy. Their mean size and zeta potentials were 232 ± 78.8 nm and -35.57 ± 0.74 mV, respectively. The F-MSN-DOX@RBC accumulation in a tumor was significantly higher than in the control group, and the spleen uptake of F-MSN-DOX@RBC was significantly reduced in comparison to that of the F-MSN-DOX group. Moreover, the cavitation caused by a single dose of F-MSN-DOX@RBC combined with multiple ultrasounds provided continuous sonodynamic therapy. The tumor inhibition rates in the experimental group were 71.5 8 ± 9.54%, which is significantly better than the control group. DHE and CD31 fluorescence staining was used to assess the reactive oxygen species (ROS) generated and the broken tumor vascular system induced by ultrasound. Finally, we can conclude that the combination of anti-vascular therapy, sonodynamic therapy by ROS, and chemotherapy promoted tumor treatment efficacy. The use of red blood cell membrane-modified superhydrophobic silica nanoparticles is a promising strategy in designing ultrasound-responsive nanoparticles to promote drug-release.
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