Crossover between anti- and pro-oxidant activities of different manganese oxide nanoparticles and their biological implications

渡线 氧化锰 氧化还原 纳米颗粒 化学 活力测定 氧化物 纳米技术 无机化学 材料科学 化学工程 细胞 计算机科学 生物化学 工程类 有机化学 人工智能
作者
Xiumei Jiang,Patrick J. Gray,Mehulkumar Patel,Jiwen Zheng,Jun‐Jie Yin
出处
期刊:Journal of Materials Chemistry B [Royal Society of Chemistry]
卷期号:8 (6): 1191-1201 被引量:72
标识
DOI:10.1039/c9tb02524c
摘要

Manganese oxide nanoparticles (MnOx NPs) have been suggested to possess several enzyme-like activities. However, studies often used either color change or fluorescence to determine the catalytic activity. Despite the simplicity and sensitivity of these probes, these methods may give distracting artifacts or not reflect the catalytic activities in biological systems. To address this issue, herein, we used electron spin resonance (ESR) spectroscopy, a technique proven effective in identifying and quantifying the free radicals produced/scavenged in nanomaterial-catalyzed reactions, to systematically evaluate the catalytic activities of three MnOx NPs (MnO2, Mn2O3, and Mn3O4 NPs) towards biologically relevant antioxidants (ascorbate and glutathione (GSH)) and reactive oxygen species (ROS) (hydrogen peroxide (H2O2), superoxide anion, and hydroxyl radical). We found that all three MnOx NPs possess both pro- and anti-oxidant activities, including oxidase-, catalase-, and superoxide dismutase (SOD)-like activities but without peroxidase-like or hydroxyl radical scavenging activity. In addition, there are differences among these MnOx NPs in their catalytic activities towards different reactions. Mn2O3 shows the strongest ascorbate oxidation activity, followed by MnO2 and Mn3O4, while Mn3O4 shows the strongest oxidation efficiency towards GSH compared to Mn2O3 and MnO2. In the catalyzed decomposition of H2O2, MnO2 NPs show higher efficiency in the generation of molecular oxygen than Mn2O3 or Mn3O4. Cellular studies indicate that all three MnOx NPs induced concentration-dependent decreases in the cell viability, with Mn3O4 > Mn3O2 > MnO2. At lower concentrations (<100 μM), consistent with the enzyme-like activities detected in solution, all three NPs significantly decreased H2O2-induced cytotoxicity in Caco-2 cells. Our study determined the multi-enzymatic activities of MnOx NPs and exhibited differences among MnOx NPs of different valences in their enzyme-like activities and their biological implications; these results provide valuable information for safe and efficient applications of MnOx NPs as ROS-scavenging biomedical nanomaterials.
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