Petroff Rebekah L, Cavalcante Raymond G, Colacino Justin A, Goodrich Jaclyn M, Jones Tamara R, Lalancette Claudia, Morgan Rachel K, Neier Kari, Perera Bambarendage P U, Rygiel Christine A, Svoboda Laurie K, Wang Kai, Sartor Maureen A, Dolinoy Dana C
Department of Environmental Health Sciences, University of Michigan School of Public Health, Ann Arbor, MI, United States.
Epigenomics Core, Biomedical Research Core Facilities, Michigan Medicine, Ann Arbor, MI, United States.
Front Cell Dev Biol. 2023 Jun 13;11:1198148. doi: 10.3389/fcell.2023.1198148. eCollection 2023.
The developing epigenome changes rapidly, potentially making it more sensitive to toxicant exposures. DNA modifications, including methylation and hydroxymethylation, are important parts of the epigenome that may be affected by environmental exposures. However, most studies do not differentiate between these two DNA modifications, possibly masking significant effects. To investigate the relationship between DNA hydroxymethylation and developmental exposure to common contaminants, a collaborative, NIEHS-sponsored consortium, TaRGET II, initiated longitudinal mouse studies of developmental exposure to human-relevant levels of the phthalate plasticizer di(2-ethylhexyl) phthalate (DEHP), and the metal lead (Pb). Exposures to 25 mg DEHP/kg of food (approximately 5 mg DEHP/kg body weight) or 32 ppm Pb-acetate in drinking water were administered to nulliparous adult female mice. Exposure began 2 weeks before breeding and continued throughout pregnancy and lactation, until offspring were 21 days old. At 5 months, perinatally exposed offspring blood and cortex tissue were collected, for a total of 25 male mice and 17 female mice ( = 5-7 per tissue and exposure). DNA was extracted and hydroxymethylation was measured using hydroxymethylated DNA immunoprecipitation sequencing (hMeDIP-seq). Differential peak and pathway analysis was conducted comparing across exposure groups, tissue types, and animal sex, using an FDR cutoff of 0.15. DEHP-exposed females had two genomic regions with lower hydroxymethylation in blood and no differences in cortex hydroxymethylation. For DEHP-exposed males, ten regions in blood (six higher and four lower) and 246 regions (242 higher and four lower) and four pathways in cortex were identified. Pb-exposed females had no statistically significant differences in blood or cortex hydroxymethylation compared to controls. Pb-exposed males, however, had 385 regions (all higher) and six pathways altered in cortex, but no differential hydroxymethylation was identified in blood. Overall, perinatal exposure to human-relevant levels of two common toxicants showed differences in adult DNA hydroxymethylation that was specific to sex, exposure type, and tissue, but male cortex was most susceptible to hydroxymethylation differences by exposure. Future assessments should focus on understanding if these findings indicate potential biomarkers of exposure or are related to functional long-term health effects.
发育中的表观基因组变化迅速,这可能使其对毒物暴露更为敏感。DNA修饰,包括甲基化和羟甲基化,是表观基因组的重要组成部分,可能会受到环境暴露的影响。然而,大多数研究并未区分这两种DNA修饰,这可能掩盖了显著的影响。为了研究DNA羟甲基化与发育过程中暴露于常见污染物之间的关系,一个由美国国立环境卫生科学研究所(NIEHS)赞助的合作联盟TaRGET II启动了纵向小鼠研究,观察发育过程中暴露于与人类相关水平的邻苯二甲酸酯类增塑剂邻苯二甲酸二(2-乙基己基)酯(DEHP)和金属铅(Pb)的情况。将未生育的成年雌性小鼠暴露于每千克食物含25毫克DEHP(约每千克体重5毫克DEHP)或饮用水中含32 ppm醋酸铅的环境中。暴露从繁殖前2周开始,持续整个孕期和哺乳期,直至后代21日龄。在5个月时,收集围产期暴露后代的血液和皮质组织,共25只雄性小鼠和17只雌性小鼠(每个组织和暴露组5 - 7只)。提取DNA并使用羟甲基化DNA免疫沉淀测序(hMeDIP-seq)测量羟甲基化。使用错误发现率(FDR)截止值为0.15,对暴露组、组织类型和动物性别进行差异峰和通路分析。暴露于DEHP的雌性小鼠血液中有两个基因组区域的羟甲基化水平较低,而皮质中的羟甲基化没有差异。对于暴露于DEHP的雄性小鼠,血液中鉴定出10个区域(6个升高和4个降低),皮质中鉴定出246个区域(242个升高和4个降低)以及4条通路。与对照组相比,暴露于Pb的雌性小鼠血液或皮质中的羟甲基化没有统计学上的显著差异。然而,暴露于Pb的雄性小鼠皮质中有385个区域(均升高)和6条通路发生改变,但血液中未发现差异羟甲基化。总体而言,围产期暴露于与人类相关水平的两种常见毒物显示出成年期DNA羟甲基化存在性别、暴露类型和组织特异性差异,但雄性皮质对暴露引起的羟甲基化差异最为敏感。未来的评估应集中于了解这些发现是否表明存在潜在的暴露生物标志物或与长期功能健康影响有关。
