Contribution of Circulating Host and Microbial Tryptophan Metabolites Toward Ah Receptor Activation.

IF 2.7 Q3 NEUROSCIENCES
Ethan W Morgan, Fangcong Dong, Andrew J Annalora, Iain A Murray, Trenton Wolfe, Reece Erickson, Krishne Gowda, Shantu G Amin, Kristina S Petersen, Penny M Kris-Etherton, Craig B Marcus, Seth T Walk, Andrew D Patterson, Gary H Perdew
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引用次数: 2

Abstract

The aryl hydrocarbon receptor (AHR) is a ligand activated transcription factor that plays an integral role in homeostatic maintenance by regulating cellular functions such as cellular differentiation, metabolism, barrier function, and immune response. An important but poorly understood class of AHR activators are compounds derived from host and bacterial metabolism of tryptophan. The commensal bacteria of the gut microbiome are major producers of tryptophan metabolites known to activate the AHR, while the host also produces AHR activators through tryptophan metabolism. We used targeted mass spectrometry-based metabolite profiling to determine the presence and metabolic source of these metabolites in the sera of conventional mice, germ-free mice, and humans. Surprisingly, sera concentrations of many tryptophan metabolites are comparable between germ-free and conventional mice. Therefore, many major AHR-activating tryptophan metabolites in mouse sera are produced by the host, despite their presence in feces and mouse cecal contents. Here we present an investigation of AHR activation using a complex mixture of tryptophan metabolites to examine the biological relevance of circulating tryptophan metabolites. AHR activation is rarely studied in the context of a mixture at relevant concentrations, as we present here. The AHR activation potentials of individual and pooled metabolites were explored using cell-based assays, while ligand binding competition assays and ligand docking simulations were used to assess the detected metabolites as AHR agonists. The physiological and biomedical relevance of the identified metabolites was investigated in the context of a cell-based model for rheumatoid arthritis. We present data that reframe AHR biology to include the presence of a mixture of ubiquitous tryptophan metabolites, improving our understanding of homeostatic AHR activity and models of AHR-linked diseases.

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循环宿主和微生物色氨酸代谢物对Ah受体激活的贡献。
芳烃受体(AHR)是一种配体激活的转录因子,通过调节细胞分化、代谢、屏障功能和免疫反应等细胞功能,在维持体内平衡中起着不可或缺的作用。一类重要但鲜为人知的AHR激活剂是源自宿主和细菌色氨酸代谢的化合物。肠道微生物群的共生菌是已知激活AHR的色氨酸代谢物的主要生产者,而宿主也通过色氨酸代谢产生AHR激活剂。我们使用基于靶向质谱的代谢物分析来确定这些代谢物在常规小鼠、无菌小鼠和人类血清中的存在和代谢来源。令人惊讶的是,许多色氨酸代谢物的血清浓度在无菌小鼠和常规小鼠之间是相当的。因此,小鼠血清中许多主要的激活ahr的色氨酸代谢物是由宿主产生的,尽管它们存在于粪便和小鼠盲肠内容物中。在这里,我们提出了一项研究AHR激活使用色氨酸代谢物的复杂混合物来检查循环色氨酸代谢物的生物学相关性。AHR的激活很少在相关浓度的混合物中进行研究,正如我们在这里提出的那样。使用基于细胞的分析方法探索单个代谢物和混合代谢物的AHR激活电位,而使用配体结合竞争分析和配体对接模拟来评估检测到的代谢物作为AHR激动剂的作用。在基于细胞的类风湿性关节炎模型的背景下,研究了鉴定的代谢物的生理和生物医学相关性。我们提出的数据重新构建了AHR生物学,包括普遍存在的色氨酸代谢物的混合物,提高了我们对AHR稳态活性和AHR相关疾病模型的理解。
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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来源期刊
CiteScore
7.30
自引率
4.50%
发文量
19
审稿时长
8 weeks
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