Institute of Engineering Ceramics, School of Materials Science and Engineering, Shandong University of Technology, Zibo, 255000, China.
Key Laboratory for Ultrafine Materials of Ministry of Education, School of Materials Science and Engineering, East China University of Science and Technology, Shanghai, 200237, China.
Adv Healthc Mater. 2021 May;10(9):e2002126. doi: 10.1002/adhm.202002126. Epub 2021 Feb 28.
Recently, nanoparticle-triggered in situ catalytic Fenton/Fenton-like reaction is widely explored for tumor-specific chemodynamic therapy (CDT). However, despite the great potential of CDT in tumor treatment, insensitive response to the relatively high pH of the tumor sites and the insufficient intratumoral H O level leads to limited efficiency of most Fenton/Fenton-like reactions, which greatly imped its clinical conversion. This paper reports the fabrication of Fenton-type bimetallic peroxides for ultrasensitive chemodynamic therapy with high pH-activated, synergistic effect/H O self-supply-mediated cascade Fenton chemistry for the first time. The observations reveal that these bimetallic peroxides exhibit an ultrasensitive acid-activated decomposition-mediated Fenton-like reaction at the relatively high pH of 6.5-7.0, accompanied with highly increased •OH generation efficiency (especially, 40-60-fold increase at pH 7.0) by the metal-mediated synergistic effect-enhanced Fenton chemistry as well as in situ self-generated H O supplement. Moreover, the bimetallic peroxides exhibit high tumor accumulation which along with a high-efficiency tumor catalytic-therapeutic with negligible side effects in vivo. Developing these novel bimetallic peroxides, together with the already demonstrated capacity of the key metals (Fe, Mn, Cu, etc.) for magnetic resonance imaging or photodynamic/immune-enhanced therapy, will propel interest in development of smart high-efficiency nanoplatform for cancer theranostics.
最近,纳米颗粒触发的原位催化 Fenton/Fenton 样反应被广泛探索用于肿瘤特异性化学动力学治疗 (CDT)。然而,尽管 CDT 在肿瘤治疗中有很大的潜力,但对肿瘤部位相对较高的 pH 值的不敏感反应和肿瘤内 H2O2 水平的不足导致大多数 Fenton/Fenton 样反应的效率有限,这极大地阻碍了其临床转化。本文首次报道了 Fenton 型双金属过氧化物的制备,用于高 pH 激活、协同效应/H2O2 自供应介导的级联 Fenton 化学的超灵敏化学动力学治疗。观察结果表明,这些双金属过氧化物在相对较高的 pH 值 6.5-7.0 下表现出超灵敏的酸激活分解介导的类 Fenton 反应,同时通过金属介导的协同效应增强的 Fenton 化学以及原位自生成 H2O2 的补充,产生了更高的 •OH 生成效率(特别是在 pH 7.0 时增加了 40-60 倍)。此外,双金属过氧化物表现出高肿瘤积累,伴随着体内高效的肿瘤催化治疗,副作用可忽略不计。开发这些新型双金属过氧化物,结合已经证明的关键金属(Fe、Mn、Cu 等)用于磁共振成像或光动力/免疫增强治疗的能力,将推动对智能高效纳米平台用于癌症治疗的研究兴趣。
