Siraki Arno G, Bonini Marcelo G, Jiang JinJie, Ehrenshaft Marilyn, Mason Ronald P
Laboratory of Pharmacology and Chemistry, National Institute of Environmental Health Sciences, National Institutes of Health, 111 Alexander Drive, Research Triangle Park, North Carolina 27709, USA.
Chem Res Toxicol. 2007 Jul;20(7):1038-45. doi: 10.1021/tx6003562. Epub 2007 Jun 30.
Aminoglutethimide (AG) is a first-generation aromatase inhibitor used for estrogen-dependent breast cancer. Unfortunately, its use has also been associated with agranulocytosis. We have investigated the metabolism of AG by myeloperoxidase (MPO) and the formation of an MPO protein free radical. We hypothesized that AG oxidation by MPO/H2O2 would produce an AG cation radical that, in the absence of a biochemical reductant, would lead to the oxidation of MPO. We utilized a novel anti-DMPO antibody to detect DMPO (5,5-dimethyl-1-pyrroline N-oxide) covalently bound to protein, which forms only by the reaction of DMPO with a protein free radical. We found that AG metabolism by MPO/H2O2 induced the formation of DMPO-MPO, which was inhibited by MPO inhibitors and ascorbate. Glutethimide, a congener of AG that lacks the aromatic amine, did not cause DMPO-MPO formation, indicating the necessity of oxidation of the aniline moiety in AG. When analyzed by electron spin resonance spectroscopy, we detected a phenyl radical adduct, derived from AG, which may be involved in the free radical formation on MPO. Furthermore, we also found protein-DMPO adducts in MPO-containing, intact human promyelocytic leukemia cells (HL-60). MPO was affinity-purified from HL-60 cells treated with AG/H2O2 and was found to contain DMPO. These findings were also supported by the detection of protein free radicals with electron spin resonance in the cellular cytosolic lysate. The formation of an MPO protein free radical is believed to be mediated by one of two free radical drug metabolites of AG, one of which was characterized by spin trapping with 2-methyl-2-nitrosopropane. These results are the first demonstration of MPO free-radical detection by the anti-DMPO antibody that results from drug oxidation. We propose that drug-dependent free radical formation on MPO may play a role in the origin of agranulocytosis.
氨鲁米特(AG)是一种用于雌激素依赖性乳腺癌的第一代芳香化酶抑制剂。不幸的是,其使用也与粒细胞缺乏症有关。我们研究了髓过氧化物酶(MPO)对AG的代谢作用以及MPO蛋白自由基的形成。我们假设MPO/H₂O₂对AG的氧化会产生AG阳离子自由基,在缺乏生化还原剂的情况下,该自由基会导致MPO的氧化。我们使用了一种新型抗DMPO抗体来检测与蛋白质共价结合的DMPO(5,5 - 二甲基 - 1 - 吡咯啉N - 氧化物),它仅通过DMPO与蛋白质自由基的反应形成。我们发现MPO/H₂O₂对AG的代谢诱导了DMPO - MPO的形成,MPO抑制剂和抗坏血酸可抑制其形成。谷鲁米特是AG的同系物,缺乏芳香胺,不会导致DMPO - MPO的形成,这表明AG中苯胺部分的氧化是必需的。通过电子自旋共振光谱分析,我们检测到一种源自AG的苯基自由基加合物,它可能参与了MPO上自由基的形成。此外,我们还在完整的人早幼粒细胞白血病细胞(HL - 60)中检测到了含MPO的蛋白质 - DMPO加合物。从用AG/H₂O₂处理的HL - 60细胞中亲和纯化MPO,发现其含有DMPO。细胞胞质裂解物中蛋白质自由基的电子自旋共振检测也支持了这些发现。MPO蛋白自由基的形成被认为是由AG的两种自由基药物代谢产物之一介导的,其中一种通过2 - 甲基 - 2 - 亚硝基丙烷的自旋捕获进行了表征。这些结果首次证明了通过抗DMPO抗体检测到的MPO自由基是由药物氧化产生的。我们提出,MPO上药物依赖性自由基的形成可能在粒细胞缺乏症的发生中起作用。