The aryl hydrocarbon receptor pathway is a marker of lung cell activation but does not play a central pathologic role in engineered stone-associated silicosis

IF 2.7 4区 医学 Q3 TOXICOLOGY
Yong Song, Seiha Yen, Katherine Southam, Sharyn Gaskin, Ryan F. Hoy, Graeme R. Zosky
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Abstract

Engineered stone-associated silicosis is characterised by a rapid progression of fibrosis linked to a shorter duration of exposure. To date, there is lack of information about molecular pathways that regulates disease development and the aggressiveness of this form of silicosis. Therefore, we compared transcriptome responses to different engineered stone samples and standard silica. We then identified and further tested a stone dust specific pathway (aryl hydrocarbon receptor [AhR]) in relation to mitigation of adverse lung cell responses. Cells (epithelial cells, A549; macrophages, THP-1) were exposed to two different benchtop stone samples, standard silica and vehicle control, followed by RNA sequencing analysis. Bioinformatics analyses were conducted, and the expression of dysregulated AhR pathway genes resulting from engineered stone exposure was then correlated with cytokine responses. Finally, we inhibited AhR pathway in cells pretreated with AhR antagonist and observed how this impacted cell cytotoxicity and inflammation. Through transcriptome analysis, we identified the AhR pathway genes (CYP1A1, CYP1B1 and TIPARP) that showed differential expression that was unique to engineered stones and common between both cell types. The expression of these genes was positively correlated with interleukin-8 production in A549 and THP-1 cells. However, we only observed a mild effect of AhR pathway inhibition on engineered stone dust induced cytokine responses. Given the dual roles of AhR pathway in physiological and pathological processes, our data showed that expression of AhR target genes could be markers for assessing toxicity of engineered stones; however, AhR pathway might not play a significant pathologic role in engineered stone-associated silicosis.

Abstract Image

芳基烃受体途径是肺细胞活化的标志,但在工程结石相关性矽肺中并不发挥核心病理作用。
人造石相关性矽肺病的特点是纤维化进展迅速,与较短的接触时间有关。迄今为止,关于调控疾病发展和这种形式的矽肺侵袭性的分子通路的信息还很缺乏。因此,我们比较了不同工程石头样本和标准二氧化硅的转录组反应。然后,我们确定并进一步测试了与减轻肺细胞不良反应有关的石粉特异性通路(芳基烃受体 [AhR])。细胞(上皮细胞,A549;巨噬细胞,THP-1)暴露于两种不同的台式石材样品(标准二氧化硅和车辆对照),然后进行 RNA 测序分析。然后进行生物信息学分析,并将工程石暴露导致的 AhR 通路基因表达失调与细胞因子反应相关联。最后,我们用 AhR 拮抗剂抑制了预处理细胞中的 AhR 通路,并观察了这对细胞毒性和炎症的影响。通过转录组分析,我们确定了AhR通路基因(CYP1A1、CYP1B1和TIPARP)的表达差异,这些差异是工程结石所特有的,也是两种细胞类型所共有的。这些基因的表达与 A549 和 THP-1 细胞中白细胞介素-8 的产生呈正相关。不过,我们只观察到 AhR 通路抑制对人造石粉尘诱导的细胞因子反应有轻微影响。鉴于AhR通路在生理和病理过程中的双重作用,我们的数据表明,AhR靶基因的表达可作为评估工程石毒性的标志物;然而,AhR通路在工程石相关性矽肺中可能并不扮演重要的病理角色。
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来源期刊
CiteScore
7.00
自引率
6.10%
发文量
145
审稿时长
1 months
期刊介绍: Journal of Applied Toxicology publishes peer-reviewed original reviews and hypothesis-driven research articles on mechanistic, fundamental and applied research relating to the toxicity of drugs and chemicals at the molecular, cellular, tissue, target organ and whole body level in vivo (by all relevant routes of exposure) and in vitro / ex vivo. All aspects of toxicology are covered (including but not limited to nanotoxicology, genomics and proteomics, teratogenesis, carcinogenesis, mutagenesis, reproductive and endocrine toxicology, toxicopathology, target organ toxicity, systems toxicity (eg immunotoxicity), neurobehavioral toxicology, mechanistic studies, biochemical and molecular toxicology, novel biomarkers, pharmacokinetics/PBPK, risk assessment and environmental health studies) and emphasis is given to papers of clear application to human health, and/or advance mechanistic understanding and/or provide significant contributions and impact to their field.
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