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Nanostructured Peptidotoxins as Natural Pro-Oxidants Induced Cancer Cell Death via Amplification of Oxidative Stress

活性氧 癌细胞 氧化应激 纳米载体 溶酶体 程序性细胞死亡 生物化学 内吞作用 癌症 细胞生物学 化学 生物物理学 细胞凋亡 药物输送 材料科学 细胞 生物 纳米技术 遗传学
作者
Hongzhi Qiao,Dong Fang,Lei Zhang,Xiaochen Gu,Yin Lu,Minjie Sun,Chunmeng Sun,Qineng Ping,Junsong Li,Zhipeng Chen,Jun Chen,Lihong Hu,Liuqing Di
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:10 (5): 4569-4581 被引量:35
标识
DOI:10.1021/acsami.7b18809
摘要

Melittin (Mel), one of the host defense peptides derived from the venom of honeybees, demonstrates substantial anticancer properties, which is attributed to augmenting reactive oxygen species (ROS) generation. However, little has been reported on its pro-oxidation capacity in cancer oxidation therapy. In this study, an ROS amplifying nanodevice was fabricated through direct complexation of two natural pro-oxidants, Mel and condensed epigallocatechin gallate (pEGCG). The obtained nanocomplex (NC) was further covered with phenylboronic acid derivatized hyaluronic acid (pHA) through the ROS-responsive boronate ester coordination bond to produce pHA-NC. Upon undergoing receptor-mediated endocytosis into cancer cells, the inner cores of pHA-NC will be partially uncovered once pHA corona is degraded by hyaluronidase and will then escape from the lysosome by virtue of cytolytic Mel. The elevated ROS level in the tumor cytoplasm can disrupt the boronate ester bond to facilitate drug release. Both Mel and pEGCG could synergistically amplify oxidative stress and prolong ROS retention in cancer cells, leading to enhanced anticancer efficacy. This ROS cascade amplifier based on selective coordination bond and inherent pro-oxidation properties of natural ingredients could detect and elevate intracellular ROS signals, potentiating to move the tumor away from its homeostasis and make the tumor vulnerable. Compared to previously reported chemosynthetic pro-oxidants, the ROS self-sufficient system, fully composed of natural medicine, from this study provides a new insight in developing cancer oxidation therapy.

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