Quenching effect of cerium oxide nanoparticles on singlet oxygen: validation of the potential for reaction with multiple reactive oxygen species.

IF 2 4区 医学 Q3 NUTRITION & DIETETICS
Yukihiro Ogawa, Tsunetaka Kawaguchi, Mami Tanaka, Akiko Hashimoto, Koji Fukui, Naofumi Uekawa, Toshihiko Ozawa, Toshiaki Kamachi, Masahiro Kohno
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引用次数: 1

Abstract

Here we studied cerium oxide nanoparticles (nanoceria) as an agent for the future treatment of oxidative damage by validating and evaluating its scavenging activity towards reactive oxygen species (ROS) in vitro. Nanoceria has been shown to mimic the activities of superoxide dismutase and catalase, degrading superoxide (O2•-) and hydrogen peroxide (H2O2). We examined the antioxidative activity of nanoceria, focusing on its ability to quench singlet oxygen (1O2) in an aqueous solution. Electron paramagnetic resonance (EPR) was used to determine the rates of second-order reactions between nanoceria and three ROS (1O2, O2•-, and H2O2) in aqueous solution, and its antioxidative abilities were demonstrated. Nanoceria shows a wide range of ultraviolet-light absorption bands and thus 1O2 was produced directly in a nanoceria suspension using high-frequency ultrasound. The quenching or scavenging abilities of nanoceria for 1O2 and hypoxanthine-xanthine oxidase reaction-derived O2•- were examined by EPR spin-trapping methods, and the consumption of H2O2 was estimated by the EPR oximetry method. Our results indicated that nanoceria interact not only with two previously reported ROS but also with 1O2. Nanoceria were shown to degrade O2•- and H2O2, and their ability to quench 1O2 may be one mechanism by which they protect against oxidative damage such as inflammation.

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氧化铈纳米粒子对单线态氧的猝灭效应:与多种活性氧反应电位的验证。
在这里,我们通过验证和评估氧化铈纳米颗粒(nanoceria)对活性氧(ROS)的清除活性,研究了氧化铈纳米颗粒作为未来氧化损伤治疗的药物。纳米粒具有模拟超氧化物歧化酶和过氧化氢酶的活性,降解超氧化物(O2•-)和过氧化氢(H2O2)。我们研究了纳米微球的抗氧化活性,重点研究了其在水溶液中淬灭单线态氧(1O2)的能力。利用电子顺磁共振(EPR)测定了纳米二氧化硅与水溶液中3种活性氧(1O2、O2•-和H2O2)的二级反应速率,并验证了其抗氧化能力。纳米陶瓷具有广泛的紫外吸收带,因此利用高频超声直接在纳米陶瓷悬浮液中产生1O2。采用EPR自旋捕获法考察了纳米铈对O2和次黄嘌呤-黄嘌呤氧化酶反应生成的O2•-的猝灭或清除能力,并采用EPR氧饱和度法测定了H2O2的消耗。我们的研究结果表明,纳米微球不仅与两种先前报道的活性氧相互作用,而且与1O2相互作用。研究表明,纳米微球可以降解O2•-和H2O2,它们抑制1O2的能力可能是它们防止氧化损伤(如炎症)的一种机制。
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来源期刊
CiteScore
4.30
自引率
8.30%
发文量
57
审稿时长
6-12 weeks
期刊介绍: Journal of Clinical Biochemistry and Nutrition (JCBN) is an international, interdisciplinary publication encompassing chemical, biochemical, physiological, pathological, toxicological and medical approaches to research on lipid peroxidation, free radicals, oxidative stress and nutrition. The Journal welcomes original contributions dealing with all aspects of clinical biochemistry and clinical nutrition including both in vitro and in vivo studies.
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