Transcription factor TBX4 regulates myofibroblast accumulation and lung fibrosis
Ting Xie, Jiurong Liang, Ningshan Liu, Caijuan Huan, Yanli Zhang, Weijia Liu, Maya Kumar, Rui Xiao, Jeanine D’Armiento, Daniel Metzger, Pierre Chambon, Virginia E. Papaioannou, Barry R. Stripp, Dianhua Jiang, Paul W. Noble
Ting Xie, Jiurong Liang, Ningshan Liu, Caijuan Huan, Yanli Zhang, Weijia Liu, Maya Kumar, Rui Xiao, Jeanine D’Armiento, Daniel Metzger, Pierre Chambon, Virginia E. Papaioannou, Barry R. Stripp, Dianhua Jiang, Paul W. Noble
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Research Article Cell biology Pulmonology

Transcription factor TBX4 regulates myofibroblast accumulation and lung fibrosis

Abstract

Progressive tissue fibrosis is a major cause of the morbidity and mortality associated with repeated epithelial injuries and accumulation of myofibroblasts. Successful treatment options are limited by an incomplete understanding of the molecular mechanisms that regulate myofibroblast accumulation. Here, we employed in vivo lineage tracing and real-time gene expression transgenic reporting methods to analyze the early embryonic transcription factor T-box gene 4 (TBX4), and determined that TBX4-lineage mesenchymal progenitors are the predominant source of myofibroblasts in injured adult lung. In a murine model, ablation of TBX4-expressing cells or disruption of TBX4 signaling attenuated lung fibrosis after bleomycin-induced injury. Furthermore, TBX4 regulated hyaluronan synthase 2 production to enable fibroblast invasion of matrix both in murine models and in fibroblasts from patients with severe pulmonary fibrosis. These data identify TBX4 as a mesenchymal transcription factor that drives accumulation of myofibroblasts and the development of lung fibrosis. Targeting TBX4 and downstream factors that regulate fibroblast invasiveness could lead to therapeutic approaches in lung fibrosis.

Authors

Ting Xie, Jiurong Liang, Ningshan Liu, Caijuan Huan, Yanli Zhang, Weijia Liu, Maya Kumar, Rui Xiao, Jeanine D’Armiento, Daniel Metzger, Pierre Chambon, Virginia E. Papaioannou, Barry R. Stripp, Dianhua Jiang, Paul W. Noble

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Figure 8

Loss of TBX4 expression in COL1α2-expressing cells attenuates pulmonary fibrosis.

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Loss of TBX4 expression in COL1α2-expressing cells attenuates pulmonary ...
(A) Strategy for inducible knockout of TBX4 expression in COL1α2+ cells. Col1a2-CreER Tbx4fl/fl mice were used in these experiments. The above-mentioned mice and their WT littermates (8–16 weeks old) were treated with bleomycin (2.5 U/kg), followed by 5 doses of tamoxifen (0.2 mg/g/injection) every other day starting on d7. The lungs were collected for hydroxyproline content determination on d21 after bleomycin. (B) Knockdown of Tbx4 in COL1α2-expressing cells decreased hydroxyproline content (means ± SEM, ***P ≤ 0.001, ****P ≤ 0.0001, n = 6 in uninjured Tbx4fl/fl group, n = 4 in uninjured Col1a2-CreER Tbx4fl/fl group, n = 23 in bleo Tbx4fl/fl group, n = 27 in bleo Col1a2-CreER Tbx4fl/fl group). (C) Representative Masson’s trichrome staining from lungs at d21 after bleomycin injection, showing decreased collagen deposition (blue) in Col1a2-CreER Tbx4fl/fl. (D and E) Representative images of COL1α1 and αSMA antibody staining for bleo d21 Col1a2-CreER Tbx4fl/fl mouse lung. n = 6 mice per group examined. Scale bars: 100 μm (CE).