Yap/Taz regulate alveolar regeneration and resolution of lung inflammation
Ryan LaCanna, … , Marla R. Wolfson, Ying Tian
Ryan LaCanna, … , Marla R. Wolfson, Ying Tian
Published April 15, 2019
Citation Information: J Clin Invest. 2019;129(5):2107-2122. https://doi.org/10.1172/JCI125014.
View: Text | PDF
Research Article Pulmonology

Yap/Taz regulate alveolar regeneration and resolution of lung inflammation

Abstract

Alveolar epithelium plays a pivotal role in protecting the lungs from inhaled infectious agents. Therefore, the regenerative capacity of the alveolar epithelium is critical for recovery from these insults in order to rebuild the epithelial barrier and restore pulmonary functions. Here, we show that sublethal infection of mice with Streptococcus pneumoniae, the most common pathogen of community-acquired pneumonia, led to exclusive damage in lung alveoli, followed by alveolar epithelial regeneration and resolution of lung inflammation. We show that surfactant protein C–expressing (SPC-expressing) alveolar epithelial type II cells (AECIIs) underwent proliferation and differentiation after infection, which contributed to the newly formed alveolar epithelium. This increase in AECII activities was correlated with increased nuclear expression of Yap and Taz, the mediators of the Hippo pathway. Mice that lacked Yap/Taz in AECIIs exhibited prolonged inflammatory responses in the lung and were delayed in alveolar epithelial regeneration during bacterial pneumonia. This impaired alveolar epithelial regeneration was paralleled by a failure to upregulate IκBa, the molecule that terminates NF-κB–mediated inflammatory responses. These results demonstrate that signals governing resolution of lung inflammation were altered in Yap/Taz mutant mice, which prevented the development of a proper regenerative niche, delaying repair and regeneration of alveolar epithelium during bacterial pneumonia.

Authors

Ryan LaCanna, Daniela Liccardo, Peggy Zhang, Lauren Tragesser, Yan Wang, Tongtong Cao, Harold A. Chapman, Edward E. Morrisey, Hao Shen, Walter J. Koch, Beata Kosmider, Marla R. Wolfson, Ying Tian

×

Figure 4

AECII proliferation and differentiation in Yap/Taz mutant lungs during bacterial pneumonia.

Options: View larger image (or click on image) Download as PowerPoint
AECII proliferation and differentiation in Yap/Taz mutant lungs during b...
(A) Schematic of experimental design for studies shown in BF. (B) Lung tissue sections from SPC-CreERT2, Rosa26-mTmG mouse were immunostained with DAPI (blue) and antibody against GFP (lineage-labeled AECIIs) (green), and colabeling with Click-iT EdU Alexa Fluor (red) and confocal images were taken. The percentages of GFP+EdU+ cells of total GFP+ cells per field were graphed (bottom panel). (C) Confocal image of lung section from SPC-CreERT2, Rosa26-mTmG mouse at 7 dpi with nuclei labeled by DAPI (blue) and antibodies against GFP (green) and Ki67 (red). Percentages of GFP+Ki67+ cells of total GFP+ cells per field were graphed (bottom panel). (D) Confocal images of lung section at 14 dpi with nuclei labeled by DAPI (blue) and antibodies against GFP (green) and T1a (red). Asterisks indicate regions double-positive for GFP and T1a. (E) Lung cells were dissociated and flow cytometry was performed by gating on GFP+T1a+. The numbers in the top left gates represent all GFP+ cells of total live CD45 cells. The numbers in the top right gates represent GFP+T1a+ cells of total T1a+ cells. The numbers in the bottom right gates represent all T1a+ cells of total live CD45 cells. (F) Quantification of GFP+T1a+ cells as the percentage of GFP+T1a+ of total T1a+ cells by flow cytometry. n = 4–5 per group (B and C); n = 4–8 per group (F). **P < 0.01; ***P < 0.001; ****P < 0.0001, 2-way ANOVA. Scale bars: 25 μm (B and C); 20 μm (D).