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氮氧化物化合物的化学与生物学

The chemistry and biology of nitroxide compounds.

作者信息

Soule Benjamin P, Hyodo Fuminori, Matsumoto Ken-Ichiro, Simone Nicole L, Cook John A, Krishna Murali C, Mitchell James B

机构信息

Radiation Biology Branch, Center for Cancer Research, National Cancer Institute, Bethesda, MD 20892, USA.

出版信息

Free Radic Biol Med. 2007 Jun 1;42(11):1632-50. doi: 10.1016/j.freeradbiomed.2007.02.030. Epub 2007 Mar 12.

DOI:10.1016/j.freeradbiomed.2007.02.030
PMID:17462532
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1991293/
Abstract

Cyclic nitroxides are a diverse group range of stable free radicals that have unique antioxidant properties. Because of their ability to interact with free radicals, they have been used for many years as biophysical tools. During the past 15-20 years, however, many interesting biochemical interactions have been discovered and harnessed for therapeutic applications. Biologically relevant effects of nitroxides have been described, including their ability to degrade superoxide and peroxide, inhibit Fenton reactions, and undergo radical-radical recombination. Cellular studies defined the activity of nitroxides in vitro. By modifying oxidative stress and altering the redox status of tissues, nitroxides have been found to interact with and alter many metabolic processes. These interactions can be exploited for therapeutic and research use, including protection against ionizing radiation, as probes in functional magnetic resonance imaging, cancer prevention and treatment, control of hypertension and weight, and protection from damage resulting from ischemia/reperfusion injury. Although much remains to be done, many applications have been well studied and some are currently being tested in clinical trials. The therapeutic and research uses of nitroxide compounds are reviewed here with a focus on the progress from initial development to modern trials.

摘要

环状氮氧化物是一类具有独特抗氧化特性的多样的稳定自由基。由于它们能够与自由基相互作用,多年来一直被用作生物物理工具。然而,在过去的15到20年里,人们发现了许多有趣的生化相互作用,并将其用于治疗应用。已经描述了氮氧化物的生物学相关效应,包括它们降解超氧化物和过氧化物的能力、抑制芬顿反应以及进行自由基-自由基重组的能力。细胞研究确定了氮氧化物在体外的活性。通过改变氧化应激和改变组织的氧化还原状态,发现氮氧化物能够与许多代谢过程相互作用并改变这些过程。这些相互作用可用于治疗和研究,包括预防电离辐射、作为功能磁共振成像的探针、癌症预防和治疗、控制高血压和体重以及预防缺血/再灌注损伤造成的损害。尽管仍有许多工作要做,但许多应用已经得到了充分研究,有些目前正在临床试验中进行测试。本文综述了氮氧化物化合物的治疗和研究用途,重点是从最初开发到现代试验的进展。

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