Department of Pharmaceutical Technology and Biochemistry, Chemical Faculty, Gdańsk University of Technology, Gdańsk, Poland.
Drug Metab Dispos. 2013 Feb;41(2):414-21. doi: 10.1124/dmd.112.047811. Epub 2012 Nov 16.
The acridinone derivates 5-dimethylaminopropylamino-8-hydroxytriazoloacridinone (C-1305) and 5-diethylaminoethylamino-8-hydroxyimidazoacridinone (C-1311) are promising antitumor agents with high activity against several experimental cellular and tumor models and are under evaluation in preclinical and early phase clinical trials. Recent evidence from our laboratories has indicated that both compounds were conjugated by several uridine diphosphate-glucuronyltransferase (UGT) isoforms, the most active being extrahepatic UGT1A10. The present studies were designed to test the ability and selectivity of UGT1A10 in the glucuronidation of acridinone antitumor agents in a cellular context. We show that in KB-3 cells, a HeLa subline lacking expression of any UGT isoforms, both C-1305 and C-1311 undergo metabolic transformation to the glucuronidated forms on overexpression of UGT1A10. Furthermore, UGT1A10 overexpression significantly increased the cytotoxicity of C-1305, but not C-1311, suggesting that the glucuronide was more potent than the C-1305 parent compound. These responses were selective for UGT1A10 because documented overexpression of UGT2B4 failed to produce glucuronide products and failed to alter the cytotoxicity for both compounds. These findings contribute to our understanding of the mechanisms of action of these agents and are of particular significance because data for C-1305 contradict the dogma that glucuronidation typically plays a role in detoxification or deactivation. In summary, these studies suggest that extrahepatic UGT1A10 plays an important role in the metabolism and the bioactivation of C-1305 and constitutes the basis for further mechanistic studies on the mode of action of this drug, as well as translational studies on the role of this enzyme in regulation of C-1305 toxicity in cancer.
吖啶酮衍生物 5-二甲基氨基丙基氨基-8-羟基三唑并吖啶酮(C-1305)和 5-二乙氨基乙基氨基-8-羟基咪唑并吖啶酮(C-1311)是具有高活性的抗肿瘤药物,对多种实验细胞和肿瘤模型均有作用,目前正在临床前和早期临床试验中进行评估。我们实验室的最新研究结果表明,这两种化合物都可被多种尿苷二磷酸-葡糖醛酸基转移酶(UGT)同工酶结合,其中最活跃的是肝外 UGT1A10。本研究旨在检测 UGT1A10 在细胞内结合吖啶酮类抗肿瘤药物的能力和选择性。结果显示,在 HeLa 亚系 KB-3 细胞中,由于缺乏任何 UGT 同工酶的表达,在过表达 UGT1A10 时,C-1305 和 C-1311 均可代谢转化为葡糖醛酸化形式。此外,过表达 UGT1A10 显著增加了 C-1305 的细胞毒性,但对 C-1311 没有影响,这表明葡糖苷酸比 C-1305 母体化合物更有效。这些反应是 UGT1A10 特有的,因为已证实的 UGT2B4 过表达未能产生葡糖苷酸产物,也未能改变这两种化合物的细胞毒性。这些发现有助于我们了解这些药物的作用机制,特别重要的是,C-1305 的相关数据与葡糖醛酸化通常在解毒或失活中起作用的观点相矛盾。总之,这些研究表明,肝外 UGT1A10 在 C-1305 的代谢和生物活化中起着重要作用,为进一步研究该药物的作用模式以及研究该酶在调节 C-1305 毒性方面的作用提供了依据。