化学
白藜芦醇
细胞毒性
体外
药物输送
癌症治疗
细胞
药品
叶酸
癌细胞
细胞生长
癌症研究
叶酸受体
生物物理学
活性氧
癌症治疗
细胞培养
微球
肿瘤细胞
渗透(战争)
纳米技术
生物化学
抑制性突触后电位
靶向给药
药理学
组合化学
细胞存活
纳米医学
作者
Chen Zhang,Xueyu Pu,Guohua Teng,Fuyi Li,Hezhao Bai,Kui Lin,Yi Wang,Jia Hao,Jian Yang,Fei Tian
标识
DOI:10.1002/adhm.202504093
摘要
ABSTRACT Metal–organic frameworks (MOFs) have great potential for the development of targeted drug delivery systems (DDSs) to improve the effectiveness of inhibiting HepG2 cells. Herein, inspired by the solvothermal synthesis method and the concept of designable assembly, MOF (UiO‐66‐NH 2 ) is first doped by Fe‐Cu NPs to form Fe‐Cu@MOF and further modified with polydopamine (PDA) and folic acid (FA) to obtain Fe‐Cu@MOF‐PDA‐FA for the loading of resveratrol (RES). The Fe‐Cu@MOF‐PDA‐FA has desirable drug loading efficiency and excellent pH‐responsive release of RES. In vitro cellular experiments and 3D hepatoma cell microspheres model, the Fe‐Cu@MOF‐PDA‐FA not only showed low cytotoxicity but also post‐drug has a good inhibitory effect on HepG2. In addition, Fe‐Cu@MOF‐PDA‐FA could achieve good tumor penetration via FR‐mediated endocytosis, while showing good anticancer cellular activity and the ability to promote reactive oxygen species (ROS) generation. Therefore, RES@Fe‐Cu@MOF‐PDA‐FA has promising applications as pH‐responsive DDS in combination with chemodynamic therapy (CDT) for cancer therapy.
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