TnP and AHR-CYP1A1 Signaling Crosstalk in an Injury-Induced Zebrafish Inflammation Model.

IF 4.3 3区医学 Q2 CHEMISTRY, MEDICINAL

Pharmaceuticals Pub Date : 2024-08-31 DOI:10.3390/ph17091155

Geonildo Rodrigo Disner, Thales Alves de Melo Fernandes, Milton Yutaka Nishiyama-Jr, Carla Lima, Emma Wincent, Monica Lopes-Ferreira

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Abstract

Aryl Hydrocarbon Receptor (AHR) signaling is crucial for regulating the biotransformation of xenobiotics and physiological processes like inflammation and immunity. Meanwhile, Thalassophryne nattereri Peptide (TnP), a promising anti-inflammatory candidate from toadfish venom, demonstrates therapeutic effects through immunomodulation. However, its influence on AHR signaling remains unexplored. This study aimed to elucidate TnP's molecular mechanisms on the AHR-cytochrome P450, family 1 (CYP1) pathway upon injury-induced inflammation in wild-type (WT) and Ahr2-knockdown (KD) zebrafish larvae through transcriptomic analysis and Cyp1a reporters. TnP, while unable to directly activate AHR, potentiated AHR activation by the high-affinity ligand 6-Formylindolo [3,2-b]carbazole (FICZ), implying a role as a CYP1A inhibitor, confirmed by in vitro studies. This interplay suggests TnP's ability to modulate the AHR-CYP1 complex, prompting investigations into its influence on biotransformation pathways and injury-induced inflammation. Here, the inflammation model alone resulted in a significant response on the transcriptome, with most differentially expressed genes (DEGs) being upregulated across the groups. Ahr2-KD resulted in an overall greater number of DEGs, as did treatment with the higher dose of TnP in both WT and KD embryos. Genes related to oxidative stress and inflammatory response were the most apparent under inflamed conditions for both WT and KD groups, e.g., Tnfrsf1a, Irf1b, and Mmp9. TnP, specifically, induces the expression of Hspa5, Hsp90aa1.2, Cxcr3.3, and Mpeg1.2. Overall, this study suggests an interplay between TnP and the AHR-CYP1 pathway, stressing the inflammatory modulation through AHR-dependent mechanisms. Altogether, these results may offer new avenues in novel therapeutic strategies, such as based on natural bioactive molecules, harnessing AHR modulation for targeted and sustained drug effects in inflammatory conditions.

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损伤诱导的斑马鱼炎症模型中 TnP 和 AHR-CYP1A1 信号的相互影响

芳香烃受体（AHR）信号对于调节异种生物的生物转化以及炎症和免疫等生理过程至关重要。Thalassophryne nattereri 肽（TnP）是从蟾蜍毒液中提取的一种很有希望的抗炎候选物质，通过免疫调节显示出治疗效果。然而，它对 AHR 信号转导的影响仍有待探索。本研究旨在通过转录组分析和Cyp1a报告，阐明TnP在野生型（WT）和Ahr2-敲除（KD）斑马鱼幼体损伤诱导炎症时对AHR-细胞色素P450家族1（CYP1）通路的分子机制。TnP 虽然不能直接激活 AHR，但却能增强高亲和力配体 6-Formylindolo [3,2-b]carbazole (FICZ) 对 AHR 的激活作用，这意味着它具有 CYP1A 抑制剂的作用，体外研究也证实了这一点。这种相互作用表明 TnP 具有调节 AHR-CYP1 复合物的能力，促使人们研究它对生物转化途径和损伤诱导的炎症的影响。在这里，仅炎症模型就对转录组产生了显著的影响，大多数差异表达基因（DEGs）在各组间上调。Ahr2-KD 导致 DEGs 的总体数量增加，在 WT 和 KD 胚胎中使用较高剂量的 TnP 处理也是如此。在炎症条件下，WT 组和 KD 组与氧化应激和炎症反应有关的基因最为明显，如 Tnfrsf1a、Irf1b 和 Mmp9。具体而言，TnP 可诱导 Hspa5、Hsp90aa1.2、Cxcr3.3 和 Mpeg1.2 的表达。总之，这项研究表明 TnP 与 AHR-CYP1 通路之间存在相互作用，强调了通过 AHR 依赖性机制调节炎症。总之，这些结果可能为新型治疗策略提供了新的途径，如基于天然生物活性分子，利用 AHR 调节对炎症条件产生靶向和持续的药物效应。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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