IL-33 Expression Is Lower in Current Smokers at both Transcriptomic and Protein Levels

IL-33 在当前吸烟者的转录组和蛋白质水平上的表达均较低

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作者:Alen Faiz, Rashad M Mahbub, Fia Sabrina Boedijono, Milan I Tomassen, Wierd Kooistra, Wim Timens, Martijn Nawijn, Philip M Hansbro, Matt D Johansen, Simon D Pouwels, Irene H Heijink, Florian Massip, Maria Stella de Biase, Roland F Schwarz, Ian M Adcock, Kian F Chung, Anne van der Does, Pieter S Hiems

Conclusions

We provide strong evidence that cigarette smoke leads to an overall reduction in IL-33 expression in transcriptomic and protein level, and this may be due to the decrease in resting basal cells. Together, these findings may explain the clinical observation that a recent antibody-based anti-IL-33 treatment is more effective in former than current smokers with COPD.

Methods

We investigated the association of smoking status with the level of gene expression of IL-33 in the airways in eight independent transcriptomic studies of lung airways. Additionally, we performed Western blot analysis and immunohistochemistry for IL-33 in lung tissue to assess protein levels. Measurements and Main

Results

Across the bulk RNA-sequencing datasets, IL-33 gene expression and its signaling pathway were significantly lower in current versus former or never-smokers and increased upon smoking cessation (P < 0.05). Single-cell sequencing showed that IL-33 is predominantly expressed in resting basal epithelial cells and decreases during the differentiation process triggered by smoke exposure. We also found a higher transitioning of this cellular subpopulation into a more differentiated cell type during chronic smoking, potentially driving the reduction of IL-33. Protein analysis demonstrated lower IL-33 levels in lung tissue from current versus former smokers with COPD and a lower proportion of IL-33-positive basal cells in current versus ex-smoking controls. Conclusions: We provide strong evidence that cigarette smoke leads to an overall reduction in IL-33 expression in transcriptomic and protein level, and this may be due to the decrease in resting basal cells. Together, these findings may explain the clinical observation that a recent antibody-based anti-IL-33 treatment is more effective in former than current smokers with COPD.

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