暴露于丙烯醛的大鼠鼻腔组织与肺组织的转录组发生了不同的变化。

IF 3.6 Q2 TOXICOLOGY Frontiers in toxicology Pub Date : 2023-11-27 eCollection Date: 2023-01-01 DOI:10.3389/ftox.2023.1280230
Devin I Alewel, Thomas W Jackson, Katherine M Rentschler, Mette C Schladweiler, Anna Astriab-Fisher, Stephen H Gavett, Paul A Evansky, Urmila P Kodavanti
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引用次数: 0

摘要

简介:丙烯醛是人为和野火排放物以及香烟烟雾中的重要成分。虽然吸入后丙烯醛主要沉积在上呼吸道,但鼻腔组织和肺部组织中特定部位的损伤模式还不十分明确。这一评估对于设计用于评估刺激性空气污染物健康风险的体外和体内研究至关重要。研究方法在这项研究中,雄性和雌性 Wistar-Kyoto 大鼠仅用鼻子接触空气或丙烯醛。丙烯醛暴露组的大鼠在最初的 30 分钟内暴露于浓度递增的丙烯醛(0、0.1、0.316、1 ppm)中,然后在 3.16 ppm 的浓度下暴露 3.5 小时。对第一组雄性和雌性大鼠的鼻腔和支气管肺泡灌洗液进行了炎症标志物分析,对第二组雄性大鼠的鼻腔气道和左肺组织进行了 mRNA 测序。研究结果暴露于丙烯醛的雄性大鼠鼻腔气道中的蛋白质渗漏情况与雌性大鼠相似;但与雌性大鼠相比,雄性大鼠的炎性细胞和细胞因子增加更为明显。雄性和雌性支气管肺泡灌洗液中除总细胞数和 IL-6 增加外,未发现一致的变化。暴露于丙烯醛的雄性大鼠鼻腔组织中有 452 个差异表达基因 (DEG),而肺部只有 95 个。鼻腔中 DEGs 的通路分析表明,急性期反应信号、Nrf2 介导的氧化应激、未折叠蛋白反应和其他炎症通路发生了变化,而肺部中的异生物代谢通路发生了变化。与糖皮质激素和 GPCR 信号转导相关的基因在鼻部也发生了变化,但在肺部没有发生变化。讨论这些数据提供了关于吸入丙烯醛介导的鼻腔和肺气道性别特异性损伤/炎症的见解。鼻腔中的转录反应反映了丙烯醛诱导的急性氧化和细胞因子信号变化,这可能对上呼吸道炎症性疾病的易感性有影响。
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Differential transcriptomic alterations in nasal versus lung tissue of acrolein-exposed rats.

Introduction: Acrolein is a significant component of anthropogenic and wildfire emissions, as well as cigarette smoke. Although acrolein primarily deposits in the upper respiratory tract upon inhalation, patterns of site-specific injury in nasal versus pulmonary tissues are not well characterized. This assessment is critical in the design of in vitro and in vivo studies performed for assessing health risk of irritant air pollutants. Methods: In this study, male and female Wistar-Kyoto rats were exposed nose-only to air or acrolein. Rats in the acrolein exposure group were exposed to incremental concentrations of acrolein (0, 0.1, 0.316, 1 ppm) for the first 30 min, followed by a 3.5 h exposure at 3.16 ppm. In the first cohort of male and female rats, nasal and bronchoalveolar lavage fluids were analyzed for markers of inflammation, and in a second cohort of males, nasal airway and left lung tissues were used for mRNA sequencing. Results: Protein leakage in nasal airways of acrolein-exposed rats was similar in both sexes; however, inflammatory cells and cytokine increases were more pronounced in males when compared to females. No consistent changes were noted in bronchoalveolar lavage fluid of males or females except for increases in total cells and IL-6. Acrolein-exposed male rats had 452 differentially expressed genes (DEGs) in nasal tissue versus only 95 in the lung. Pathway analysis of DEGs in the nose indicated acute phase response signaling, Nrf2-mediated oxidative stress, unfolded protein response, and other inflammatory pathways, whereas in the lung, xenobiotic metabolism pathways were changed. Genes associated with glucocorticoid and GPCR signaling were also changed in the nose but not in the lung. Discussion: These data provide insights into inhaled acrolein-mediated sex-specific injury/inflammation in the nasal and pulmonary airways. The transcriptional response in the nose reflects acrolein-induced acute oxidative and cytokine signaling changes, which might have implications for upper airway inflammatory disease susceptibility.

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