使用同位素标记的硝酮自旋捕集剂检测超氧阴离子：潜在的生物学应用。

Detection of superoxide anion using an isotopically labeled nitrone spin trap: potential biological applications.

作者信息

Zhang H, Joseph J, Vasquez-Vivar J, Karoui H, Nsanzumuhire C, Martásek P, Tordo P, Kalyanaraman B

机构信息

Biophysics Research Institute, Medical College of Wisconsin, 8701 Watertown Plank Road, Milwaukee, WI 53226, USA.

出版信息

FEBS Lett. 2000 May 4;473(1):58-62. doi: 10.1016/s0014-5793(00)01498-8.

DOI:10.1016/s0014-5793(00)01498-8

PMID:10802059

Abstract

We describe the synthesis and biological applications of a novel nitrogen-15-labeled nitrone spin trap, 5-ethoxycarbonyl-5-methyl-1-pyrroline N-oxide ([(15)N]EMPO) for detecting superoxide anion. Superoxide anion generated in xanthine/xanthine oxidase (100 nM min(-1)) and NADPH/calcium-calmodulin/nitric oxide synthase systems was readily detected using EMPO, a nitrone analog of 5,5'-dimethyl-1-pyrroline N-oxide (DMPO). Unlike DMPO-superoxide adduct (DMPO-OOH), the superoxide adduct of EMPO (EMPO-OOH) does not spontaneously decay to the corresponding hydroxyl adduct, making spectral interpretation less confounding. Although the superoxide adduct of 5-(diethoxyphosphoryl)-5-methyl-pyrroline N-oxide is more persistent than EMPO-OOH, the electron spin resonance spectra of [(14)N]EMPO-OOH and [(15)N]EMPO-OOH are less complex and easier to interpret. Potential uses of [(15)N]EMPO in elucidating the mechanism of superoxide formation from nitric oxide synthases, and in ischemia/reperfusion injury are discussed.

摘要

我们描述了一种新型氮-15标记的硝酮自旋捕捉剂5-乙氧羰基-5-甲基-1-吡咯啉N-氧化物（[(15)N]EMPO）的合成及其用于检测超氧阴离子的生物学应用。使用5,5'-二甲基-1-吡咯啉N-氧化物（DMPO）的硝酮类似物EMPO，可轻松检测黄嘌呤/黄嘌呤氧化酶（100 nM min(-1)）和NADPH/钙调蛋白/一氧化氮合酶系统中产生的超氧阴离子。与DMPO-超氧加合物（DMPO-OOH）不同，EMPO的超氧加合物（EMPO-OOH）不会自发衰变为相应的羟基加合物，从而使光谱解释的混淆性降低。尽管5-(二乙氧基磷酰基)-5-甲基-吡咯啉N-氧化物的超氧加合物比EMPO-OOH更持久，但[(14)N]EMPO-OOH和[(15)N]EMPO-OOH的电子自旋共振光谱更简单，更易于解释。讨论了[(15)N]EMPO在阐明一氧化氮合酶形成超氧阴离子的机制以及缺血/再灌注损伤中的潜在用途。

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使用同位素标记的硝酮自旋捕集剂检测超氧阴离子：潜在的生物学应用。

Detection of superoxide anion using an isotopically labeled nitrone spin trap: potential biological applications.

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