Samrat Roy Choudhury, Stephanie D Byrum, Sarah J Blossom
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In the current study, purified naive CD4 T cells from both male and female autoimmune-prone MRL/MpJ mice were activated ex vivo and polarized towards a Th1 subset for 4 days in the presence or absence of the oxidative metabolite of TCE, trichloroacetaldehyde hydrate (TCAH) in vitro. An RNA-seq assessment and reduced representation bisulfite sequencing for DNA methylation were conducted on Th1 cells or activated, non-polarized cells. The results demonstrated TCAH's ability to regulate key genes involved in the immune response and autoimmunity, including Ifng, by altering the level of DNA methylation at the gene promoter. Intriguing sex differences were observed and for the most part, the effects were more robust in females compared to males. In conclusion, TCE via TCAH epigenetically regulates gene expression in CD4+ T cells. 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引用次数: 0
摘要
三氯乙烯(TCE)是一种工业溶剂和广泛存在的环境污染物,与 CD4+ T 细胞活化和自身免疫性疾病有关。先前的研究表明,易患自身免疫性疾病的小鼠接触了饮用水中的三氯乙烯后,其效应/记忆 CD4+ T 细胞会扩大,并具有分泌干扰素-γ(IFN-γ)的 Th1 样表型。然而,人们对接触三氯乙烷如何使 CD4+ T 细胞偏向这种促炎 Th1 亚群知之甚少。正如之前所观察到的,在纯化的效应/记忆 CD4 T 细胞中,TCE 暴露与基因组中与转录抑制相关区域的超甲基化有关。我们假设,当 CD4+ T 细胞从幼稚表型分化为效应表型时,TCE 会调节它们的转录和/或表观遗传编程。在目前的研究中,我们在体外激活了来自雄性和雌性自身免疫易感性 MRL/MpJ 小鼠的纯化幼稚 CD4 T 细胞,并在有或没有三氯乙醛的氧化代谢物三氯乙醛水合物(TCAH)的情况下将其极化为 Th1 亚群,为期 4 天。对 Th1 细胞或活化的非极化细胞进行了 RNA-seq 评估和 DNA 甲基化还原表征亚硫酸氢盐测序。结果表明,TCAH 能够通过改变基因启动子的 DNA 甲基化水平来调控参与免疫反应和自身免疫的关键基因,包括 Ifng。研究还观察到了耐人寻味的性别差异,在大多数情况下,与男性相比,女性受到的影响更大。总之,TCE通过TCAH对CD4+ T细胞的基因表达进行表观遗传调控。这些结果可能对机理理解或未来的自身免疫疗法有影响。
Trichloroethylene metabolite modulates DNA methylation-dependent gene expression in Th1-polarized CD4+ T cells from autoimmune-prone mice.
Trichloroethylene (TCE) is an industrial solvent and widespread environmental contaminant associated with CD4+ T-cell activation and autoimmune disease. Prior studies showed that exposure to TCE in the drinking water of autoimmune-prone mice expanded effector/memory CD4+ T cells with an interferon-γ (IFN-γ)-secreting Th1-like phenotype. However, very little is known how TCE exposure skews CD4+ T cells towards this pro-inflammatory Th1 subset. As observed previously, TCE exposure was associated with hypermethylation of regions of the genome related to transcriptional repression in purified effector/memory CD4 T cells. We hypothesized that TCE modulates transcriptional and/or epigenetic programming of CD4+ T cells as they differentiate from a naive to effector phenotype. In the current study, purified naive CD4 T cells from both male and female autoimmune-prone MRL/MpJ mice were activated ex vivo and polarized towards a Th1 subset for 4 days in the presence or absence of the oxidative metabolite of TCE, trichloroacetaldehyde hydrate (TCAH) in vitro. An RNA-seq assessment and reduced representation bisulfite sequencing for DNA methylation were conducted on Th1 cells or activated, non-polarized cells. The results demonstrated TCAH's ability to regulate key genes involved in the immune response and autoimmunity, including Ifng, by altering the level of DNA methylation at the gene promoter. Intriguing sex differences were observed and for the most part, the effects were more robust in females compared to males. In conclusion, TCE via TCAH epigenetically regulates gene expression in CD4+ T cells. These results may have implications for mechanistic understanding or future therapeutics for autoimmunity.
期刊介绍:
The mission of Toxicological Sciences, the official journal of the Society of Toxicology, is to publish a broad spectrum of impactful research in the field of toxicology.
The primary focus of Toxicological Sciences is on original research articles. The journal also provides expert insight via contemporary and systematic reviews, as well as forum articles and editorial content that addresses important topics in the field.
The scope of Toxicological Sciences is focused on a broad spectrum of impactful toxicological research that will advance the multidisciplinary field of toxicology ranging from basic research to model development and application, and decision making. Submissions will include diverse technologies and approaches including, but not limited to: bioinformatics and computational biology, biochemistry, exposure science, histopathology, mass spectrometry, molecular biology, population-based sciences, tissue and cell-based systems, and whole-animal studies. Integrative approaches that combine realistic exposure scenarios with impactful analyses that move the field forward are encouraged.