Dual-Targeted Fe3O4@MnO2 Nanoflowers for Magnetic Resonance Imaging-Guided Photothermal-Enhanced Chemodynamic/Chemotherapy for Tumor

光热治疗 阿霉素 透明质酸 肿瘤微环境 肿瘤缺氧 磁共振成像 癌症研究 活性氧 CD44细胞 癌细胞 材料科学 化疗 化学 癌症 纳米技术 放射治疗 肿瘤细胞 医学 生物化学 细胞 内科学 放射科 解剖
作者
Hui-Fang Xiao,Hui Yu,Deqiang Wang,Xinzheng Liu,Wanru Sun,Youjie Li,Guang‐Bin Sun,Yan Liang,Hongfang Sun,Pingyu Wang,Shuyang Xie,Ranran Wang
出处
期刊:Journal of Biomedical Nanotechnology [American Scientific Publishers]
卷期号:18 (2): 352-368 被引量:6
标识
DOI:10.1166/jbn.2022.3254
摘要

The construction of high-efficiency tumor theranostic platform will be of great interest in the treatment of cancer patients; however, significant challenges are associated with developing such a platform. In this study, we developed high-efficiency nanotheranostic agent based on ferroferric oxide, manganese dioxide, hyaluronic acid and doxorubicin (FMDH-D NPs) for dual targeting and imaging guided synergetic photothermal-enhanced chemodynamic/chemotherapy for cancer, which improved the specific uptake of drugs at tumor site by the dual action of CD44 ligand hyaluronic acid and magnetic nanoparticles guided by magnetic force. Under the acidic microenvironment of cancer cells, FMDH-D could be decomposed into Mn2+ and Fe2+ to generate •OH radicals by triggering a Fenton-like reaction and responsively releasing doxorubicin to kill cancer cells. Meanwhile, alleviating tumor hypoxia improved the efficacy of chemotherapy in tumors. The photothermal properties of FMDH generated high temperatures, which further accelerated the generation of reactive oxygen species, and enhanced effects of chemodynamic therapy. Furthermore, FMDH-D NPs proved to be excellent T1/T₂-weighted magnetic resonance imaging contrast agents for monitoring the tumor location. These results confirmed the considerable potential of FMDH-D NPs in a highly efficient synergistic therapy platform for cancer treatment.
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