Triphenyl Phosphate Alters Methyltransferase Expression and Induces Genome-Wide Aberrant DNA Methylation in Zebrafish Larvae

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Chander K. Negi*, Lucie Bláhová, Audrey Phan, Lola Bajard and Ludek Blaha, 
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Abstract

Emerging environmental contaminants, organophosphate flame retardants (OPFRs), pose significant threats to ecosystems and human health. Despite numerous studies reporting the toxic effects of OPFRs, research on their epigenetic alterations remains limited. In this study, we investigated the effects of exposure to 2-ethylhexyl diphenyl phosphate (EHDPP), tricresyl phosphate (TMPP), and triphenyl phosphate (TPHP) on DNA methylation patterns during zebrafish embryonic development. We assessed general toxicity and morphological changes, measured global DNA methylation and hydroxymethylation levels, and evaluated DNA methyltransferase (DNMT) enzyme activity, as well as mRNA expression of DNMTs and ten-eleven translocation (TET) methylcytosine dioxygenase genes. Additionally, we analyzed genome-wide methylation patterns in zebrafish larvae using reduced-representation bisulfite sequencing. Our morphological assessment revealed no general toxicity, but a statistically significant yet subtle decrease in body length following exposure to TMPP and EHDPP, along with a reduction in head height after TPHP exposure, was observed. Eye diameter and head width were unaffected by any of the OPFRs. There were no significant changes in global DNA methylation levels in any exposure group, and TMPP showed no clear effect on DNMT expression. However, EHDPP significantly decreased only DNMT1 expression, while TPHP exposure reduced the expression of several DNMT orthologues and TETs in zebrafish larvae, leading to genome-wide aberrant DNA methylation. Differential methylation occurred primarily in introns (43%) and intergenic regions (37%), with 9% and 10% occurring in exons and promoter regions, respectively. Pathway enrichment analysis of differentially methylated region-associated genes indicated that TPHP exposure enhanced several biological and molecular functions corresponding to metabolism and neurological development. KEGG enrichment analysis further revealed TPHP-mediated potential effects on several signaling pathways including TGFβ, cytokine, and insulin signaling. This study identifies specific changes in DNA methylation in zebrafish larvae after TPHP exposure and brings novel insights into the epigenetic mode of action of TPHP.

Abstract Image

磷酸三苯酯改变甲基转移酶的表达并诱导斑马鱼幼体基因组DNA甲基化异常
新出现的环境污染物有机磷阻燃剂(OPFRs)对生态系统和人类健康构成了严重威胁。尽管有大量研究报告了 OPFRs 的毒性影响,但有关其表观遗传学改变的研究仍然有限。在这项研究中,我们调查了暴露于 2-乙基己基二苯基磷酸酯(EHDPP)、磷酸三甲苯酯(TMPP)和磷酸三苯酯(TPHP)对斑马鱼胚胎发育过程中 DNA 甲基化模式的影响。我们评估了一般毒性和形态变化,测量了整体 DNA 甲基化和羟甲基化水平,评估了 DNA 甲基转移酶(DNMT)的酶活性以及 DNMT 和十-十一转位(TET)甲基胞嘧啶二氧酶基因的 mRNA 表达。此外,我们还利用还原代表亚硫酸氢盐测序技术分析了斑马鱼幼体的全基因组甲基化模式。我们的形态学评估显示,斑马鱼没有普遍的毒性,但在接触 TMPP 和 EHDPP 后,体长出现了统计学意义上的显著而细微的下降,而在接触 TPHP 后,头高也有所下降。眼睛直径和头部宽度未受到任何 OPFR 的影响。任何暴露组的整体 DNA 甲基化水平都没有明显变化,TMPP 对 DNMT 的表达也没有明显影响。然而,EHDPP 只显著降低了 DNMT1 的表达,而 TPHP 暴露则降低了斑马鱼幼体中多个 DNMT 同源物和 TET 的表达,导致全基因组 DNA 甲基化异常。差异甲基化主要发生在内含子(43%)和基因间区(37%),外显子和启动子区分别为 9% 和 10%。对不同甲基化区域相关基因的通路富集分析表明,接触 TPHP 会增强与新陈代谢和神经系统发育相关的一些生物和分子功能。KEGG富集分析进一步揭示了TPHP介导的对包括TGFβ、细胞因子和胰岛素信号转导在内的几种信号通路的潜在影响。这项研究确定了暴露于 TPHP 后斑马鱼幼体 DNA 甲基化的特定变化,并对 TPHP 的表观遗传作用模式提出了新的见解。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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