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多组织转录组学和血清代谢组学评估揭示了急性臭氧诱导应激反应对雄性 Wistar Kyoto 大鼠全身的影响。

Multi-tissue transcriptomic and serum metabolomic assessment reveals systemic implications of acute ozone-induced stress response in male Wistar Kyoto rats.

机构信息

Public Health and Integrated Toxicology Division, Center for Public Health and Environmental Assessment, U.S. Environmental Protection Agency, Research Triangle Park, NC, 27711, USA.

Oak Ridge Institute for Science and Education Research Participation Program, U.S. Environmental Protection Agency, Research Triangle Park, NC, 27711, USA.

出版信息

Metabolomics. 2023 Sep 10;19(9):81. doi: 10.1007/s11306-023-02043-5.

Abstract

Air pollutant exposures have been linked to systemic disease; however, the underlying mechanisms between responses of the target tissue and systemic effects are poorly understood. A prototypic inducer of stress, ozone causes respiratory and systemic multiorgan effects through activation of a neuroendocrine stress response. The goal of this study was to assess transcriptomic signatures of multiple tissues and serum metabolomics to understand how neuroendocrine and adrenal-derived stress hormones contribute to multiorgan health outcomes. Male Wistar Kyoto rats (12-13 weeks old) were exposed to filtered air or 0.8 ppm ozone for 4-hours, and blood/tissues were collected immediately post-exposure. Each tissue had distinct expression profiles at baseline. Ozone changed 1,640 genes in lung, 274 in hypothalamus, 2,516 in adrenals, 1,333 in liver, 1,242 in adipose, and 5,102 in muscle (adjusted p-value < 0.1, absolute fold-change > 50%). Serum metabolomic analysis identified 863 metabolites, of which 447 were significantly altered in ozone-exposed rats (adjusted p-value < 0.1, absolute fold change > 20%). A total of 6 genes were differentially expressed in all 6 tissues. Glucocorticoid signaling, hypoxia, and GPCR signaling were commonly changed, but ozone induced tissue-specific changes in oxidative stress, immune processes, and metabolic pathways. Genes upregulated by TNF-mediated NFkB signaling were differentially expressed in all ozone-exposed tissues, but those defining inflammatory response were tissue-specific. Upstream predictor analysis identified common mediators of effects including glucocorticoids, although the specific genes responsible for these predictors varied by tissue. Metabolomic analysis showed major changes in lipids, amino acids, and metabolites linked to the gut microbiome, concordant with transcriptional changes identified through pathway analysis within liver, muscle, and adipose tissues. The distribution of receptors and transcriptional mechanisms underlying the ozone-induced stress response are tissue-specific and involve induction of unique gene networks and metabolic phenotypes, but the shared initiating triggers converge into shared pathway-level responses. This multi-tissue transcriptomic analysis, combined with circulating metabolomic assessment, allows characterization of the systemic inhaled pollutant-induced stress response.

摘要

空气污染物暴露与全身疾病有关;然而,目标组织反应与全身效应之间的潜在机制尚不清楚。臭氧是一种典型的应激诱导剂,通过激活神经内分泌应激反应,引起呼吸道和全身多器官效应。本研究的目的是评估多个组织的转录组特征和血清代谢组学,以了解神经内分泌和肾上腺源性应激激素如何影响多器官健康结局。雄性 Wistar 京都大鼠(12-13 周龄)暴露于过滤空气或 0.8 ppm 臭氧 4 小时,暴露后立即采集血液/组织。每个组织在基线时有不同的表达谱。臭氧改变了肺中的 1640 个基因,下丘脑中的 274 个,肾上腺中的 2516 个,肝脏中的 1333 个,脂肪组织中的 1242 个,肌肉中的 5102 个(调整后的 p 值 < 0.01,绝对倍数变化 > 50%)。血清代谢组学分析鉴定出 863 种代谢物,其中 447 种在臭氧暴露大鼠中明显改变(调整后的 p 值 < 0.01,绝对倍数变化 > 20%)。共有 6 个基因在所有 6 种组织中差异表达。糖皮质激素信号、缺氧和 GPCR 信号共同改变,但臭氧诱导了组织特异性的氧化应激、免疫过程和代谢途径改变。TNF 介导的 NFkB 信号转导上调的基因在所有臭氧暴露组织中差异表达,但定义炎症反应的基因是组织特异性的。上游预测分析确定了包括糖皮质激素在内的共同效应调节剂,尽管负责这些预测因子的特定基因因组织而异。代谢组学分析显示脂质、氨基酸和与肠道微生物组相关的代谢物发生了重大变化,与通过肝、肌肉和脂肪组织中的途径分析确定的转录变化一致。臭氧诱导应激反应的受体分布和转录机制具有组织特异性,涉及诱导独特的基因网络和代谢表型,但共享的起始触发因素汇集到共享的途径水平反应中。这种多组织转录组分析,结合循环代谢组学评估,允许对全身吸入性污染物诱导的应激反应进行特征描述。

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