State Key Laboratory of Environmental Chemistry and Ecotoxicology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, 18 Shuangqing Road, Beijing100085, China.
University of Chinese Academy of Sciences, Beijing100049, China.
Environ Sci Technol. 2022 Sep 6;56(17):12358-12367. doi: 10.1021/acs.est.1c08624. Epub 2022 Aug 10.
DDT and its metabolites (DDTs) can induce estrogenic effects. Previous mechanistic investigations mainly concentrated on activating the genomic transcription of estrogen receptor (ER) pathways. Here, we identified whether estrogen-related receptor γ (ERRγ), an orphan nuclear receptor, is a potential target of DDTs by receptor binding, transcriptional activity, and receptor-mediated pathway assays. Fluorescence polarization-based binding assays showed that all eight DDTs bound to ERRγ directly, with values ranging from 0.73-168.82 μM. Among them, 2,2-bis(4-chlorophenyl)ethanol (4,4'-DDOH) exhibited the highest binding affinity, which was 2.5-fold stronger than GSK4716, a well-known ERRγ agonist. Eight DDTs exhibited agonistic activity toward the ERRγ pathway, with 4,4'-DDOH showing the strongest potency. In silico studies revealed that DDTs tended to bind with ERRγ in the agonistic conformation. Using a SKBR3 breast cancer cell model, we further found that nanomolar or micromolar levels of DDTs significantly activated the ERRγ pathway in cells and induced cell proliferation through the ERRγ-modulated cell cycle. These results indicated that the binding and activation of DDTs to ERRγ might serve as molecular initiating events for subsequent ERRγ-mediated signaling pathways and adverse outcomes. Overall, our results demonstrated that ERRγ might be a crucial pathway involved in the estrogenic disruption effects of DDTs.
滴滴涕及其代谢物(DDTs)可诱导雌激素效应。先前的机制研究主要集中在激活雌激素受体(ER)途径的基因组转录上。在这里,我们通过受体结合、转录活性和受体介导的途径测定来确定是否雌激素相关受体γ(ERRγ),一种孤儿核受体,是滴滴涕的潜在靶标。基于荧光偏振的结合测定表明,所有八种滴滴涕都直接与 ERRγ结合, 值范围为 0.73-168.82 μM。其中,2,2-双(4-氯苯基)乙醇(4,4'-DDOH)表现出最高的结合亲和力,比 ERRγ的一种著名激动剂 GSK4716 强 2.5 倍。八种滴滴涕对 ERRγ 途径具有激动活性,其中 4,4'-DDOH 表现出最强的效力。计算机研究表明,滴滴涕倾向于以激动构象与 ERRγ结合。使用 SKBR3 乳腺癌细胞模型,我们进一步发现,滴滴涕在细胞中的纳米摩尔或微摩尔水平可显著激活 ERRγ 途径,并通过 ERRγ 调节的细胞周期诱导细胞增殖。这些结果表明,滴滴涕与 ERRγ 的结合和激活可能作为随后的 ERRγ 介导的信号通路和不良后果的分子起始事件。总的来说,我们的结果表明,ERRγ 可能是滴滴涕雌激素干扰作用的关键途径。
