iPSC-Derived Bronchial Airways-On-Chip for the Assessment of Cytokine Secretion Triggered by Volatile Organic Compounds

分泌物 细胞因子 呼吸系统 体外 呼吸上皮 上皮 药理学 哮喘 体外毒理学 毒性 致癌物 化学 空气污染物 诱导多能干细胞 污染物 毒理 生物 免疫学 白细胞介素8 累积剂量 吸入染毒 累积效应 吸入 医学 炎症 呼吸粘膜 化合物 呼吸道 细胞生物学
作者
Adele Goldman-Pinkovich,Rose Ibraheem-Azaizeh,Yasmin Habib,Abeer Abbasi,Shir Shapiro-Fillin,Ronit Almog,Josué Sznitman,Arbel Artzy-Schnirman
出处
期刊:ACS Biomaterials Science & Engineering [American Chemical Society]
卷期号:12 (6): 3143-3152
标识
DOI:10.1021/acsbiomaterials.6c00056
摘要

Air quality monitoring currently relies mostly on a combination of epidemiological data and classic experimental data. Our objective was to design an alternative approach for assessing air pollutant risk potential using a specialized platform capable of detecting the cumulative and indirect effects of exposure via the inhaled route. We used a bronchial airways-on-chip (BOC) that captures key physiological features of the human lung. The platform integrates our previously developed device with in vitro differentiated bronchial epithelium derived from induced pluripotent stem cells (iPSCs). This setup is capable of replicating bronchial epithelial exposure to irritants at the air-liquid interface under controlled and reproducible conditions. It comprises the first proof-of-concept design combining a BOC with iPSC-derived bronchial epithelium as an alternative approach toward potential risk assessment of inhaled pollutants. As a representative pollutant, we use benzene, a volatile organic compound (VOC). At low concentrations and short-term exposure, it is not considered acutely harmful, but long-term exposure can result in mutagenic and carcinogenic effects. As air pollutant toxicity is known to be mediated by the respiratory epithelial lining and secretion of cytokines, we demonstrate our system to be sufficiently sensitive to capture increased cytokine secretion corresponding to increasing concentrations of benzene. Of utmost relevance is our finding that a cumulative effect could be detected, only caused by prolonged exposure at low concentrations of benzene, previously shown to be nontoxic in classic short-term in vitro studies. Finally, the cumulative effect could be reversed using a commonly used asthma medication (Montelukast), further supporting the relevance of the setup.
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