NF-κB drives epithelial-mesenchymal mechanisms of lung fibrosis in a translational lung cell model
Patrick Sieber, Anny Schäfer, Raphael Lieberherr, Silvia L. Caimi, Urs Lüthi, Jesper Ryge, Jan H. Bergmann, François Le Goff, Manuel Stritt, Peter Blattmann, Bérengère Renault, Patrick Rammelt, Bruno Sempere, Diego Freti, Rolf Studer, Eric S. White, Magdalena Birker-Robaczewska, Maxime Boucher, Oliver Nayler
Patrick Sieber, Anny Schäfer, Raphael Lieberherr, Silvia L. Caimi, Urs Lüthi, Jesper Ryge, Jan H. Bergmann, François Le Goff, Manuel Stritt, Peter Blattmann, Bérengère Renault, Patrick Rammelt, Bruno Sempere, Diego Freti, Rolf Studer, Eric S. White, Magdalena Birker-Robaczewska, Maxime Boucher, Oliver Nayler
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Research Article Cell biology Pulmonology

NF-κB drives epithelial-mesenchymal mechanisms of lung fibrosis in a translational lung cell model

Abstract

In the progression phase of idiopathic pulmonary fibrosis (IPF), the normal alveolar structure of the lung is lost and replaced by remodeled fibrotic tissue and by bronchiolized cystic airspaces. Although these are characteristic features of IPF, knowledge of specific interactions between these pathological processes is limited. Here, the interaction of lung epithelial and lung mesenchymal cells was investigated in a coculture model of human primary airway epithelial cells (EC) and lung fibroblasts (FB). Single-cell RNA sequencing revealed that the starting EC population was heterogenous and enriched for cells with a basal cell signature. Furthermore, fractions of the initial EC and FB populations adopted distinct pro-fibrotic cell differentiation states upon cocultivation, resembling specific cell populations that were previously identified in lungs of patients with IPF. Transcriptomic analysis revealed active NF-κB signaling early in the cocultured EC and FB, and the identified NF-κB expression signatures were found in “HAS1 High FB” and “PLIN2+ FB” populations from IPF patient lungs. Pharmacological blockade of NF-κB signaling attenuated specific phenotypic changes of EC and prevented FB-mediated interleukin-6, interleukin-8, and CXC chemokine ligand 6 cytokine secretion, as well as collagen α-1(I) chain and α–smooth muscle actin accumulation. Thus, we identified NF-κB as a potential mediator, linking epithelial pathobiology with fibrogenesis.

Authors

Patrick Sieber, Anny Schäfer, Raphael Lieberherr, Silvia L. Caimi, Urs Lüthi, Jesper Ryge, Jan H. Bergmann, François Le Goff, Manuel Stritt, Peter Blattmann, Bérengère Renault, Patrick Rammelt, Bruno Sempere, Diego Freti, Rolf Studer, Eric S. White, Magdalena Birker-Robaczewska, Maxime Boucher, Oliver Nayler

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Figure 4

Early gene expression changes reveal coculture-induced NF-κB and AP-1 gene expression signature in NHLF and NHBE.

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Early gene expression changes reveal coculture-induced NF-κB and AP-1 ge...
(A) Venn diagrams displaying the number of overlapping differentially expressed genes (DEGs) per condition compared to t = 0 hours (FDR < 0.05 and |LinFC| > 1.5) and the top-ranked canonical pathways predicted for the coculture-specific genes, as identified by ingenuity pathway analysis (IPA) application. (B) Ingenuity upstream regulator analysis of the DEGs between cocultured and monocultured NHLF and NHBE (FDR < 0.05 and |LinFC| > 1.5) at t = 0 hours, 3 hours, and 18 hours, respectively, sorted according to the activation z score. (C) Expression kinetics and results of the GSOA of NHLF-CC cluster 1. The combined expression kinetics of the clustered genes is depicted as a z score (from –1 to 1) across the time points t = 0 hours (T0), 3 hours (T3), and 18 hours (T18), respectively. The expression pattern of each gene is associated with a cluster weight between 0 and 1 (according to its match with cluster dynamics), color-coded in the figure according to the inserted palette. Enriched gene sets are displayed as bars representing the –log10(FDR) with the corresponding FDR values. Gene expression, depicted in reads per kilobase of transcript, per million mapped reads (RPKM), of selected (D) NF-κB and (E) AP-1 TF family members, respectively, showing gene expression increases between conditions NHLF and NHLF-CC at the time points t = 0 hours, 3 hours, or 18 hours. DEGs in comparison with monocultured control were evaluated using edgeR and are depicted as *FDR ≤ 0.05, **FDR ≤ 0.01, ***FDR ≤ 0.001, and ****FDR ≤ 0.0001. The experiment was performed once with n = 3 replicates per sample.