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Tailored Design of an ROS-Responsive Drug Release Platform for Enhanced Tumor Therapy via "Sequential Induced Activation Processes".

Tingting LuanLulu ChengJu ChengXiaoyun ZhangYufei CaoXiangdong ZhangHaiyan CuiGuanghui Zhao
Published in: ACS applied materials & interfaces (2019)
The reactive oxygen species (ROS)-responsive intelligent drug delivery system has developed rapidly in recent years. However, because of the low concentration of ROS in most types of tumor cells, it is not possible to rapidly and effectively stimulate the drug delivery system to release the active drug. Here, we introduced "sequential induced activation processes" for efficient tumor therapy by designing a new ROS-responsive drug release platform. β-Lapachone, a positively charged nitrogen mustard (NM) prodrug, and two diblock molecules (mPEG-AcMH and PAsp-AcMH) are self-assembled to form prodrug primary micelles, which are further aggregated into nanoparticles that facilitate drug codelivery. When administered by intravenous injection, the nanoparticles reach the tumor site and enter the tumor cells by endocytosis. The β-lapachone released in the tumor cells induces a large amount of H2O2, and the ROS-responsive NM prodrug is activated to form activated NM, quinone methide, and boric acid under the induction of H2O2. The activated NM leads to tumor cell apoptosis.
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