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ROS Responsive Polymeric siRNA Nanomedicine Stabilized by Triple-Interactions for the Robust  Glioblastoma Combinational RNAi Therapy.

Meng Zheng, Yuanyuan Liu, Yibin Wang, Dongya Zhang, Yan Zou, Weimin Ruan, Jinlong Yin, Wei Tao, Jong Bae Park, and Bingyang Shi*

Advanced Materials. 2019, 1903277.(IF=32.085)

Abstract

Small interfering RNA (siRNA) holds inherent advantages and great potential for treating refractory diseases. However, lack of suitable siRNA delivery systems that demonstrate excellent circulation stability and effective at-site delivery ability is currently impeding siRNA therapeutic performance. Here, a polymeric siRNA nanomedicine (3I-NM@siRNA) stabilized by triple interactions (electrostatic, hydrogen bond, and hydrophobic) is constructed. Incorporating extra hydrogen and hydrophobic interactions significantly improves the physiological stability compared to an siRNA nanomedicine analog that solely relies on electrostatic interaction for stability. The developed 3I-NM@siRNA nanomedicine demonstrates effective at-site siRNA release resulting from tumoral reactive oxygen species triggered sequential destabilization. Furthermore, the utility of 3I-NM@ siRNA for treating glioblastoma (GBM) by functionalizing 3I-NM@siRNA nanomedicine with angiopep-2 peptide is enhanced. The targeted Ang-3I-NM@siRNA exhibits superb blood brain barrier penetration and potent tumor accumulation. Moreover, by cotargeting polo-like kinase 1 and vascular endothelial growth factor receptor-2, Ang-3I-NM@siRNA shows effective suppression of tumor growth and significantly improved survival time of nude mice bearing orthotopic GBM brain tumor. New siRNA nanomedicines featuring triple-interaction stabilization together with inbuilt selfdestruct delivery ability provide a robust and potent platform for targeted GBM siRNA therapy which may have utility for RNA interference therapy of other tumors or brain diseases.


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? 2017 河南大学-麦考瑞大学
生物医学联合创新中心
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河南省开封市
河南大学金明校区,生命科学学院
475004
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