Validation of in vitro models for smoke exposure of primary human bronchial epithelial cells

The bronchial epithelium is constantly challenged by inhalative insults including cigarette smoke (CS), a key risk factor for lung disease. In vitro exposure of bronchial epithelial cells using CS extract (CSE) is a widespread alternative to whole CS (wCS) exposure. However, CSE exposure protocols vary considerably between studies, precluding direct comparison of applied doses. Moreover, they are rarely validated in terms of physiological response in vivo and the relevance of the findings is often unclear. We tested six different exposure settings in primary human bronchial epithelial cells (phBECs), including five CSE protocols compared with wCS exposure. We quantified cell-delivered dose and directly compared all exposures using expression analysis of 10 well-established smoke-induced genes in bronchial epithelial cells. CSE exposure of phBECs was varied in terms of differentiation state, exposure route, duration of exposure, and dose. Gene expression was assessed by quantitative real-time PCR (qPCR) and Western Blot analysis. Cell type-specific expression of smoke-induced genes was analyzed by immunofluorescent analysis. Three surprisingly dissimilar exposure types, namely, chronic CSE treatment of differentiating phBECs, acute CSE treatment of submerged basal phBECs, and wCS exposure of differentiated phBECs performed best, resulting in significant upregulation of seven (chronic CSE) and six (acute wCS, acute submerged CSE exposure) out of 10 genes. Acute apical or basolateral exposure of differentiated phBECs with CSE was much less effective despite similar doses used. Our findings provide guidance for the design of human in vitro CS exposure models in experimental and translational lung research.

Automated summary

This study investigated the effects of different cigarette smoke extract (CSE) exposure protocols on human bronchial epithelial cells and compared them with whole cigarette smoke (wCS) exposure. The results showed that different exposure protocols had differing effects on gene expression, with chronic CSE exposure, acute submerged CSE exposure, and wCS exposure of differentiated phBECs resulting in significant upregulation of smoke-induced genes. These findings provide guidance for the design of in vitro cigarette smoke exposure models in lung research.