同位素标记实验阐明了缺氧选择性抗肿瘤剂1,2,4-苯并三嗪1,4-二氧化物导致DNA链断裂的机制。
Isotopic labeling experiments that elucidate the mechanism of DNA strand cleavage by the hypoxia-selective antitumor agent 1,2,4-benzotriazine 1,4-di-N-oxide.
作者信息
Shen Xiulong, Rajapakse Anuruddha, Gallazzi Fabio, Junnotula Venkatraman, Fuchs-Knotts Tarra, Glaser Rainer, Gates Kent S
机构信息
Department of Chemistry, University of Missouri , 125 Chemistry Building, Columbia, Missouri 65211, United States.
出版信息
Chem Res Toxicol. 2014 Jan 21;27(1):111-8. doi: 10.1021/tx400356y. Epub 2013 Dec 19.
Abstract
The 1,2,4-benzotriazine 1,4-dioxides are an important class of potential anticancer drugs that selectively kill the low-oxygen (hypoxic) cells found in solid tumors. These compounds undergo intracellular one-electron enzymatic reduction to yield an oxygen-sensitive drug radical intermediate that partitions forward, under hypoxic conditions, to generate a highly reactive secondary radical that causes cell killing DNA damage. Here, we characterized bioreductively activated, hypoxia-selective DNA-strand cleavage by 1,2,4-benzotriazine 1,4-dioxide. We found that one-electron enzymatic activation of 1,2,4-benzotriazine 1,4-dioxide under hypoxic conditions in the presence of the deuterium atom donor methanol-d4 produced nondeuterated mono-N-oxide metabolites. This and the results of other isotopic labeling studies provided evidence against the generation of atom-abstracting drug radical intermediates and are consistent with a DNA-damage mechanism involving the release of hydroxyl radical from enzymatically activated 1,2,4-benzotriazine 1,4-dioxides.
摘要
1,2,4-苯并三嗪-1,4-二氧化物是一类重要的潜在抗癌药物,可选择性杀死实体瘤中发现的低氧(缺氧)细胞。这些化合物在细胞内进行单电子酶促还原,生成一种对氧敏感的药物自由基中间体,在缺氧条件下,该中间体向前分配,生成高活性的二级自由基,导致细胞杀伤和DNA损伤。在此,我们对1,2,4-苯并三嗪-1,4-二氧化物的生物还原激活、缺氧选择性DNA链断裂进行了表征。我们发现,在氘原子供体甲醇-d4存在下,1,2,4-苯并三嗪-1,4-二氧化物在缺氧条件下进行单电子酶促激活,产生非氘代单-N-氧化物代谢物。这一结果以及其他同位素标记研究的结果提供了证据,反对生成夺取原子的药物自由基中间体,并且与一种DNA损伤机制一致,该机制涉及从酶促激活的1,2,4-苯并三嗪-1,4-二氧化物中释放羟基自由基。
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