Meer L, Janzer R C, Kleihues P, Kolar G F
Biochem Pharmacol. 1986 Oct 1;35(19):3243-7. doi: 10.1016/0006-2952(86)90419-3.
The cytostatic drug dacarbazine [DTIC, 5-(3,3-dimethyl-1-triazeno)imidazole-4-carboxamide] is strongly carcinogenic in rats. Bioactivation of DTIC yields a methylating intermediate but the extent of interaction with cellular macromolecules has not previously been reported. Following a single i.p. injection of [14C-methyl]DTIC, exhalation of 14CO2 occurred with a t1/2 max of approximately 2 hr (0.95 mg/kg) and 2.5 hr (95 mg/kg). Of the total radioactivity administered, 8.5% was exhaled as 14CO2; 54% was excreted via the urine, predominantly as unchanged DTIC. In liver, kidney and lung, formation of 7-[14C]methylguanine in DNA and RNA was directly proportional with dose. DNA methylation by a single dose of DTIC (9.8 mg/kg; 5 hr survival time) was highest in liver (35 mumoles 7-methylguanine/mole guanine), followed by kidney (25 mumoles) and lung (20 mumoles). The remainder tissues showed 7-methylguanine concentrations approximately 50% of those in liver DNA, with the exception of the brain which had a very low extent of DNA modification (approximately 1 mumole/mole guanine). At the specific radioactivity used (48 mCi/mmole), the promutagenic base O6-methylguanine was only detectable in liver, kidney, lung, and stomach DNA (0.6-0.8 mumoles/mole guanine). Autoradiographic studies revealed a diffuse distribution of reaction products in rat liver. In contrast, N-nitrosodimethylamine and related carcinogens known to be bioactivated by the hepatic cytochrome P-450 system show a predominantly centrilobular distribution. This difference may be due to the greater stability of proximate carcinogens generated by alpha-C hydroxylation at one of the methyl groups of DTIC.
细胞毒性药物达卡巴嗪[DTIC,5-(3,3-二甲基-1-三氮烯)咪唑-4-甲酰胺]对大鼠具有强烈致癌性。DTIC的生物活化产生一种甲基化中间体,但此前尚未报道其与细胞大分子的相互作用程度。单次腹腔注射[14C-甲基]DTIC后,14CO2呼出,t1/2 max约为2小时(0.95毫克/千克)和2.5小时(95毫克/千克)。在所给予的总放射性中,8.5%以14CO2形式呼出;54%通过尿液排泄,主要是未改变的DTIC。在肝脏、肾脏和肺中,DNA和RNA中7-[14C]甲基鸟嘌呤的形成与剂量成正比。单次剂量的DTIC(9.8毫克/千克;存活5小时)导致的DNA甲基化在肝脏中最高(35微摩尔7-甲基鸟嘌呤/摩尔鸟嘌呤),其次是肾脏(25微摩尔)和肺(20微摩尔)。其余组织中7-甲基鸟嘌呤的浓度约为肝脏DNA中的50%,但大脑除外,其DNA修饰程度非常低(约1微摩尔/摩尔鸟嘌呤)。在所使用的比放射性(48毫居里/毫摩尔)下,诱变前体碱基O6-甲基鸟嘌呤仅在肝脏、肾脏、肺和胃的DNA中可检测到(0.6 - 0.8微摩尔/摩尔鸟嘌呤)。放射自显影研究显示大鼠肝脏中反应产物呈弥漫性分布。相比之下,已知通过肝细胞色素P-450系统进行生物活化的N-亚硝基二甲胺及相关致癌物主要呈小叶中央分布。这种差异可能是由于DTIC的一个甲基发生α-C羟基化产生的近端致癌物具有更高的稳定性。
