对 AHR 野生型和敲除型大鼠肝脏的转录组分析支持 TCDD 在 AHR/ARNT 介导的昼夜节律紊乱和肝毒性中的作用。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-05-11 DOI:10.1016/j.taap.2024.116956
Melvin E. Andersen , A. Rasim Barutcu , Michael B. Black , Joshua A. Harrill
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引用次数: 0

摘要

已知单次高剂量 TCDD 会导致大鼠消瘦,体重会逐渐减少 30%至 50%,并在数周内死亡。为了确定导致消瘦的剂量或接近该剂量时的通路扰动,我们检测了雌性大鼠肝脏在服用 6 个剂量水平的 TCDD(0、3、22、100、300 和 1000 纳克/千克/天,每周 5 天,共 4 周)后中央叶(CL)和肝周(PP)区域的差异基因表达(DGE)和通路富集情况。在较高剂量下,大鼠体重减轻,肝脏/体重比率增加,肝细胞增殖几乎完全停止,这些迹象与消瘦相符。CL与PP区域的DGE曲线左移。典型的第一阶段和第二阶段基因在较低剂量时最大限度地增加,在所有剂量下均保持升高。在较低剂量(CL ≤ 22 纳克/千克/天和≤ 100 纳克/千克/天)时,上调基因显示 AHR 和 ARNT 的转录因子(TF)富集。在中剂量和高剂量下,出现了大量下调基因和DEGs通路富集,这表明包括类固醇、脂肪酸代谢、丙酮酸代谢和柠檬酸循环在内的许多细胞代谢过程都出现了下调。在高剂量下调基因中,RXR、ESR1、LXR、PPARalpha 的 TF 富集明显。在最高剂量下,细胞外基质组织、胶原形成、止血和先天性免疫系统的上调基因也出现了通路富集。TCDD 通过与芳基碳氢化合物受体(AHR)结合产生大部分效应,而已知较高剂量 TCDD 对代谢基因的下调与 AHR 与 DREs 的结合无关。根据我们对 DEG 的研究结果,我们提出了一种消耗假说,即高剂量 TCDD 使昼夜节律过程偏离静息状态,导致细胞生长所需的类固醇和复合脂质的合成大大减少,并产生与肝细胞上皮向间质转化一致的基因表达信号。
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Transcriptomic analysis of AHR wildtype and Knock-out rat livers supports TCDD's role in AHR/ARNT-mediated circadian disruption and hepatotoxicity

Single, high doses of TCDD in rats are known to cause wasting, a progressive loss of 30 to 50% body weight and death within several weeks. To identify pathway perturbations at or near doses causing wasting, we examined differentially gene expression (DGE) and pathway enrichment in centrilobular (CL) and periportal (PP) regions of female rat livers following 6 dose levels of TCDD – 0, 3, 22, 100, 300, and 1000 ng/kg/day, 5 days/week for 4 weeks. At the higher doses, rats lost weight, had increased liver/body weight ratios and nearly complete cessation of liver cell proliferation, signs consistent with wasting. DGE curves were left shifted for the CL versus the PP regions. Canonical Phase I and Phase II genes were maximally increased at lower doses and remained elevated at all doses. At lower doses, ≤ 22 ng/kg/day in the CL and ≤ 100 ng/kg/day, upregulated genes showed transcription factor (TF) enrichment for AHR and ARNT. At the mid- and high-dose doses, there was a large number of downregulated genes and pathway enrichment for DEGs which showed downregulation of many cellular metabolism processes including those for steroids, fatty acid metabolism, pyruvate metabolism and citric acid cycle. There was significant TF enrichment of the hi-dose downregulated genes for RXR, ESR1, LXR, PPARalpha. At the highest dose, there was also pathway enrichment with upregulated genes for extracellular matrix organization, collagen formation, hemostasis and innate immune system. TCDD demonstrates most of its effects through binding the aryl hydrocarbon receptor (AHR) while the downregulation of metabolism genes at higher TCDD doses is known to be independent of AHR binding to DREs. Based on our results with DEG, we provide a hypothesis for wasting in which high doses of TCDD shift circadian processes away from the resting state, leading to greatly reduced synthesis of steroids and complex lipids needed for cell growth, and producing gene expression signals consistent with an epithelial-to-mesenchymal transition in hepatocytes.

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