التفاصيل البيبلوغرافية
| العنوان: |
Self-assembled single-atom nanozyme for enhanced photodynamic therapy treatment of tumor. |
| المؤلفون: |
Wang, Dongdong, Wu, Huihui, Phua, Soo Zeng Fiona, Yang, Guangbao, Qi Lim, Wei, Gu, Long, Qian, Cheng, Wang, Haibao, Guo, Zhen, Chen, Hongzhong, Zhao, Yanli |
| المصدر: |
Nature Communications; 1/17/2020, Vol. 11 Issue 1, p1-13, 13p |
| مصطلحات موضوعية: |
PHOTODYNAMIC therapy, TUMOR treatment, REACTIVE oxygen species, TUMOR microenvironment, METAL-organic frameworks, COORDINATE covalent bond |
| مستخلص: |
Hypoxia of solid tumor compromises the therapeutic outcome of photodynamic therapy (PDT) that relies on localized O2 molecules to produce highly cytotoxic singlet oxygen (1O2) species. Herein, we present a safe and versatile self-assembled PDT nanoagent, i.e., OxgeMCC-r single-atom enzyme (SAE), consisting of single-atom ruthenium as the active catalytic site anchored in a metal-organic framework Mn3[Co(CN)6]2 with encapsulated chlorin e6 (Ce6), which serves as a catalase-like nanozyme for oxygen generation. Coordination-driven self-assembly of organic linkers and metal ions in the presence of a biocompatible polymer generates a nanoscale network that adaptively encapsulates Ce6. The resulted OxgeMCC-r SAE possesses well-defined morphology, uniform size distribution and high loading capacity. When conducting the in situ O2 generation through the reaction between endogenous H2O2 and single-atom Ru species of OxgeMCC-r SAE, the hypoxia in tumor microenvironment is relieved. Our study demonstrates a promising self-assembled nanozyme with highly efficient single-atom catalytic sites for cancer treatment. The hypoxic microenvironment in solid tumors limits the efficacy of photodynamic therapy (PDT) since oxygen is necessary to produce high cytotoxic singlet oxygen species. Here, the authors develop an improved self-assembled single-atom nanozyme which allows oxygen generation to enhance PDT efficacy. [ABSTRACT FROM AUTHOR] |
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| قاعدة البيانات: |
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