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氧化鸟嘌呤糖基化酶1可预防甲基苯丙胺增强的胎儿脑氧化DNA损伤和神经发育缺陷。

Oxoguanine glycosylase 1 protects against methamphetamine-enhanced fetal brain oxidative DNA damage and neurodevelopmental deficits.

作者信息

Wong Andrea W, McCallum Gordon P, Jeng Winnie, Wells Peter G

机构信息

Faculty of Pharmacy, and Department of Pharmacology and Toxicology, University of Toronto, Toronto, Ontario, Canada.

出版信息

J Neurosci. 2008 Sep 3;28(36):9047-54. doi: 10.1523/JNEUROSCI.2557-08.2008.

DOI:10.1523/JNEUROSCI.2557-08.2008
PMID:18768699
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6670872/
Abstract

In utero methamphetamine (METH) exposure enhances the oxidative DNA lesion 7,8-dihydro-8-oxoguanine (8-oxoG) in CD-1 fetal mouse brain, and causes long-term postnatal motor coordination deficits. Herein we used oxoguanine glycosylase 1 (ogg1) knock-out mice to determine the pathogenic roles of 8-oxoG and OGG1, which repairs 8-oxoG, in METH-initiated neurodevelopmental anomalies. Administration of METH (20 or 40 mg/kg) on gestational day 17 to pregnant +/- OGG1-deficient females caused a drug dose- and gene dose-dependent increase in 8-oxoG levels in OGG1-deficient fetal brains (p < 0.05). Female ogg1 knock-out offspring exposed in utero to high-dose METH exhibited gene dose-dependent enhanced motor coordination deficits for at least 12 weeks postnatally (p < 0.05). Contrary to METH-treated adult mice, METH-exposed CD-1 fetal brains did not exhibit altered apoptosis or DNA synthesis, and OGG1-deficient offspring exposed in utero to METH did not exhibit postnatal dopaminergic nerve terminal degeneration, suggesting different mechanisms. Enhanced 8-oxoG repair activity in fetal relative to adult organs suggests an important developmental protective role of OGG1 against in utero genotoxic stress. These observations provide the most direct evidence to date that 8-oxoG constitutes an embryopathic molecular lesion, and that functional fetal DNA repair protects against METH teratogenicity.

摘要

子宫内甲基苯丙胺(METH)暴露会增强CD - 1胎鼠大脑中的氧化性DNA损伤7,8 - 二氢 - 8 - 氧代鸟嘌呤(8 - oxoG),并导致长期的出生后运动协调缺陷。在此,我们使用氧代鸟嘌呤糖基化酶1(ogg1)基因敲除小鼠来确定8 - oxoG和修复8 - oxoG的OGG1在METH引发的神经发育异常中的致病作用。在妊娠第17天给怀孕的+/- OGG1缺陷雌性小鼠注射METH(20或40 mg/kg),导致OGG1缺陷胎儿大脑中8 - oxoG水平呈药物剂量和基因剂量依赖性增加(p < 0.05)。子宫内暴露于高剂量METH的雌性ogg1基因敲除后代在出生后至少12周表现出基因剂量依赖性增强的运动协调缺陷(p < 0.05)。与METH处理的成年小鼠相反,暴露于METH的CD - 1胎儿大脑未表现出凋亡或DNA合成改变,且子宫内暴露于METH的OGG1缺陷后代未表现出出生后多巴胺能神经末梢变性,提示存在不同机制。相对于成年器官,胎儿中增强的8 - oxoG修复活性表明OGG1对子宫内遗传毒性应激具有重要的发育保护作用。这些观察结果提供了迄今为止最直接的证据,表明8 - oxoG构成胚胎病分子损伤,且功能性胎儿DNA修复可预防METH致畸性。

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