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产前和产后交通污染暴露、Shank3 和 MeCP2 启动子区域的 DNA 甲基化、H3K4me3 和 H3K27me3 以及大鼠后代的社交行为。

Prenatal and postnatal traffic pollution exposure, DNA methylation in Shank3 and MeCP2 promoter regions, H3K4me3 and H3K27me3 and sociability in rats' offspring.

机构信息

Environmental Epigenetics Laboratory, Department of Environmental Medicine, School of Public Health, Zhejiang University, 866 Yuhangtang Rd, Hangzhou, 310058, Zhejiang Province, People's Republic of China.

Department of General Practice, Sir Run Run Shaw Hospital, Medical College of Zhejiang University, Hangzhou, Zhejiang Province, People's Republic of China.

出版信息

Clin Epigenetics. 2021 Sep 26;13(1):180. doi: 10.1186/s13148-021-01170-x.

DOI:10.1186/s13148-021-01170-x
PMID:34565458
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8474908/
Abstract

BACKGROUND

Road traffic air pollution is linked with an increased risk of autistic spectrum disorder (ASD). The aim of this study is to assess the effect of exposure to prenatal or postnatal traffic-related air pollution combining concomitant noise pollution on ASD-related epigenetic and behavioral alternations on offspring.

METHODS

A 2 × 2 factorial analysis experiment was designed. Wistar rats were exposed at different sites (L group: green space; H group: crossroads) and timings (E group: full gestation; P group: 21 days after birth) at the same time, and air pollutants of nitrogen dioxide (NO) and fine particles (PM) were meanwhile sampled. On postnatal day 25, brains from offspring of each group were extracted to determine the levels of DNA methylation in Shank3 (three parts: Shank3_01, Shank3_02, Shank3_03) and MeCP2 (two parts: MeCP2_01, MeCP2_02) promoter regions, H3K4me3 and H3K27me3 after three-chamber social test. Meanwhile, the Shank3 and MeCP2 levels were quantified.

RESULTS

The concentrations of PM (L: 58.33 µg/m; H: 88.33 µg/m, P < 0.05) and NO (L: 52.76 µg/m; H: 146.03 µg/m, P < 0.01) as well as the intensity of noise pollution (L: 44.4 dB (A); H: 70.1 dB (A), P < 0.001) differed significantly from 18:00 to 19:00 between experimental sites. Traffic pollution exposure (P = 0.006) and neonatal exposure (P = 0.001) led to lower weight of male pups on PND25. Male rats under early-life exposure had increased levels of Shank3 (Shank3_02: timing P < 0.001; site P < 0.05, Shank3_03: timing P < 0.001) and MeCP2 (MeCP2_01: timing P < 0.001, MeCP2_02: timing P < 0.001) methylation and H3K4me3 (EL: 11.94 µg/mg; EH: 11.98; PL: 17.14; PH: 14.78, timing P < 0.05), and reduced levels of H3K27me3 (EL: 71.07 µg/mg; EH: 44.76; PL: 29.15; PH: 28.67, timing P < 0.001; site P < 0.05) in brain compared to those under prenatal exposure. There was, for female pups, a same pattern of Shank3 (Shank3_02: timing P < 0.001; site P < 0.05, Shank3_03: timing P < 0.001) and MeCP2 (MeCP2_01: timing P < 0.05, MeCP2_02: timing P < 0.001) methylation and H3K4me3 (EL: 11.27 µg/mg; EH: 11.55; PL: 16.11; PH: 15.44, timing P < 0.001), but the levels of H3K27me3 exhibited an inverse trend concerning exposure timing. Hypermethylation at the MeCP2 and Shank3 promoter was correlated with the less content of MeCP2 (female: EL: 32.23 ng/mg; EH: 29.58; PL: 25.01; PH: 23.03, timing P < 0.001; site P < 0.05; male: EL: 31.05 ng/mg; EH: 32.75; PL: 23.40; PH: 25.91, timing P < 0.001) and Shank3 (female: EL: 5.10 ng/mg; EH: 5.31; PL: 4.63; PH: 4.82, timing P < 0.001; male: EL: 5.40 ng/mg; EH: 5.48; PL: 4.82; PH: 4.87, timing P < 0.001). Rats with traffic pollution exposure showed aberrant sociability preference and social novelty, while those without it behaved normally.

CONCLUSIONS

Our findings suggest early life under environmental risks is a crucial window for epigenetic perturbations and then abnormalities in protein expression, and traffic pollution impairs behaviors either during pregnancy or after birth.

摘要

背景

道路交通空气污染与自闭症谱系障碍(ASD)风险增加有关。本研究旨在评估产前或产后同时接触交通相关空气污染物和伴随的噪声污染对后代 ASD 相关表观遗传和行为改变的影响。

方法

设计了一个 2×2 析因分析实验。Wistar 大鼠在不同地点(L 组:绿地;H 组:十字路口)和时间(E 组:整个妊娠期;P 组:出生后 21 天)同时暴露,同时采样氮氧化物(NO)和细颗粒物(PM)空气污染物。在出生后第 25 天,从每组后代的大脑中提取出 Shank3(三个部分:Shank3_01、Shank3_02、Shank3_03)和 MeCP2(两个部分:MeCP2_01、MeCP2_02)启动子区域的 DNA 甲基化水平,以及三箱社交测试后的 H3K4me3 和 H3K27me3。同时,还定量了 Shank3 和 MeCP2 的水平。

结果

PM(L:58.33µg/m;H:88.33µg/m,P<0.05)和 NO(L:52.76µg/m;H:146.03µg/m,P<0.01)的浓度以及噪声污染强度(L:44.4dB(A);H:70.1dB(A),P<0.001)在实验地点之间从 18:00 到 19:00 差异显著。交通污染暴露(P=0.006)和新生儿暴露(P=0.001)导致雄性幼鼠在 PND25 时体重减轻。早期生活暴露的雄性大鼠 Shank3(Shank3_02:时间 P<0.001;地点 P<0.05,Shank3_03:时间 P<0.001)和 MeCP2(MeCP2_01:时间 P<0.001,MeCP2_02:时间 P<0.001)甲基化和 H3K4me3(EL:11.94µg/mg;EH:11.98;PL:17.14;PH:14.78,时间 P<0.05)水平升高,而 H3K27me3(EL:71.07µg/mg;EH:44.76;PL:29.15;PH:28.67,时间 P<0.001;地点 P<0.05)水平降低。与产前暴露相比,大脑中的水平降低。对于雌性幼鼠,Shank3(Shank3_02:时间 P<0.001;地点 P<0.05,Shank3_03:时间 P<0.001)和 MeCP2(MeCP2_01:时间 P<0.05,MeCP2_02:时间 P<0.001)甲基化和 H3K4me3(EL:11.27µg/mg;EH:11.55;PL:16.11;PH:15.44,时间 P<0.001)表现出相同的模式,但 H3K27me3 的水平表现出与暴露时间相反的趋势。MeCP2 和 Shank3 启动子的高甲基化与 MeCP2(雌性:EL:32.23ng/mg;EH:29.58;PL:25.01;PH:23.03,时间 P<0.001;地点 P<0.05;雄性:EL:31.05ng/mg;EH:32.75;PL:23.40;PH:25.91,时间 P<0.001)和 Shank3(雌性:EL:5.10ng/mg;EH:5.31;PL:4.63;PH:4.82,时间 P<0.001;雄性:EL:5.40ng/mg;EH:5.48;PL:4.82;PH:4.87,时间 P<0.001)含量降低有关。暴露于交通污染的大鼠表现出异常的社交偏好和社交新奇性,而未暴露于交通污染的大鼠则表现正常。

结论

我们的研究结果表明,早期环境风险是表观遗传扰动和随后蛋白质表达异常的关键窗口,交通污染会损害妊娠期或出生后的行为。

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