喜树碱
化学
超分子化学
纳米结构
连接器
纳米技术
抗癌药
纳米纤维
药品
组合化学
分子
药理学
生物化学
有机化学
材料科学
操作系统
医学
计算机科学
作者
Andrew G. Cheetham,Pengcheng Zhang,Yi‐An Lin,Lye Lin Lock,Honggang Cui
摘要
We report here a supramolecular strategy to directly assemble the small molecular hydrophobic anticancer drug camptothecin (CPT) into discrete, stable, well-defined nanostructures with a high and quantitative drug loading. Depending on the number of CPTs in the molecular design, the resulting nanostructures can be either nanofibers or nanotubes, and have a fixed CPT loading content ranging from 23% to 38%. We found that formation of nanostructures provides protection for both the CPT drug and the biodegradable linker from the external environment and thus offers a mechanism for controlled release of CPT. Under tumor-relevant conditions, these drug nanostructures can release the bioactive form of CPT and show in vitro efficacy against a number of cancer cell lines. This strategy can be extended to construct nanostructures of other types of anticancer drugs and thus presents new opportunities for the development of self-delivering drugs for cancer therapeutics.
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