前药
纳米反应器
癌细胞
化学
谷胱甘肽
活性氧
酶
催化作用
药理学
癌症
生物化学
医学
内科学
作者
Xizhen Lian,Yanyan Huang,Yuan‐Yuan Zhu,Yu Fang,Rui Zhao,Elizabeth Joseph,Jialuo Li,Jean‐Philippe Pellois,Hong‐Cai Zhou
标识
DOI:10.1002/anie.201801378
摘要
Prodrug activation, by exogenously administered enzymes, for cancer therapy is an approach to achieve better selectivity and less systemic toxicity than conventional chemotherapy. However, the short half-lives of the activating enzymes in the bloodstream has limited its success. Demonstrated here is that a tyrosinase-MOF nanoreactor activates the prodrug paracetamol in cancer cells in a long-lasting manner. By generating reactive oxygen species (ROS) and depleting glutathione (GSH), the product of the enzymatic conversion of paracetamol is toxic to drug-resistant cancer cells. Tyrosinase-MOF nanoreactors cause significant cell death in the presence of paracetamol for up to three days after being internalized by cells, while free enzymes totally lose activity in a few hours. Thus, enzyme-MOF nanocomposites are envisioned to be novel persistent platforms for various biomedical applications.
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