α7nAChR activation in AT2 cells promotes alveolar regeneration through WNT7B signaling in acute lung injury
Xiaoyan Chen, Cuiping Zhang, Tianchang Wei, Jie Chen, Ting Pan, Miao Li, Lu Wang, Juan Song, Cuicui Chen, Yan Zhang, Yuanlin Song, Xiao Su
Xiaoyan Chen, Cuiping Zhang, Tianchang Wei, Jie Chen, Ting Pan, Miao Li, Lu Wang, Juan Song, Cuicui Chen, Yan Zhang, Yuanlin Song, Xiao Su
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Research Article Pulmonology Stem cells

α7nAChR activation in AT2 cells promotes alveolar regeneration through WNT7B signaling in acute lung injury

Abstract

Reducing inflammatory damage and improving alveolar epithelium regeneration are two key approaches to promoting lung repair in acute lung injury/acute respiratory distress syndrome (ALI/ARDS). Stimulation of cholinergic α7 nicotinic acetylcholine receptor (α7nAChR, coded by Chrna7) signaling could dampen lung inflammatory injury. However, whether activation of α7nAChR in alveolar type II (AT2) cells promotes alveolar epithelial injury repair and underlying mechanisms is elusive. Here, we found that α7nAChR was expressed on AT2 cells and was upregulated in response to LPS-induced ALI. Meanwhile, deletion of Chrna7 in AT2 cells impeded lung repair process and worsened lung inflammation in ALI. Using in vivo AT2 lineage–labeled mice and ex vivo AT2 cell–derived alveolar organoids, we demonstrated that activation of α7nAChR expressed on AT2 cells improved alveolar regeneration by promoting AT2 cells to proliferate and subsequently differentiate toward alveolar type I cells. Then, we screened out the WNT7B signaling pathway by the RNA-Seq analysis of in vivo AT2 lineage–labeled cells and further confirmed its indispensability for α7nAChR activation–mediated alveolar epithelial proliferation and differentiation. Thus, we have identified a potentially unrecognized pathway in which cholinergic α7nAChR signaling determines alveolar regeneration and repair, which might provide us a novel therapeutic target for combating ALI.

Authors

Xiaoyan Chen, Cuiping Zhang, Tianchang Wei, Jie Chen, Ting Pan, Miao Li, Lu Wang, Juan Song, Cuicui Chen, Yan Zhang, Yuanlin Song, Xiao Su

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Figure 5

Vagal-7nAChR signaling upregulates canonical WNT7B signaling in AT2 cells during LPS-induced lung injury.

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Vagal-7nAChR signaling upregulates canonical WNT7B signaling in AT2 cell...
(A and B) PBS or LPS (2.5 mg/kg) was intratracheally delivered to SftpccreChrna7fl/fl mice or Chrna7fl/fl mice and was followed for 7 days (N = 3–5 in each group). (A) qPCR analysis of genes that are key growth factors for lung regeneration in the lung tissue. (B) Statistical quantification of the relative concentration of wingless-type MMTV integration site family, member 7B (WNT7B) protein in the lung tissue tested by ELISA. (C) PBS, LPS (2.5 mg/kg), or GTS-21 (α7nAChR selective agonist, 4 mg/kg) was intratracheally (i.t.) delivered to lineage-tracing mice (Sftpc-creERT2R26RtdTomato) followed by PBS or GTS-21 intranasal administration (i.n.) at the 1st day, and Sftpc lineage–labeled cells were sorted for RNA-Seq and qPCR analysis. Specific time points for tamoxifen (TMX) injection and analysis are indicated (N = 3 in each group). (D) Heatmap of the transcriptional profiles of Wnt7b and other related genes in AT2 cells on day 7. (E) Volcano plot analysis of gene changes presented in D. (F) Protein interaction network among genes presented in D. (G) KEGG pathway and GO analysis of Wnt7b and other related genes presented in D. (H) AT2 cells were purified by FACS and then treated with PBS, LPS (1 μg/mL), GTS-21 (10 μmol/L), or MLA (10 μmol/L) in vitro, and the gene expression of Wnt7b was quantified by qPCR on day 5. One-way ANOVA with Tukey’s post hoc analysis was used in A, B, and H. Data are representative of at least 3 independent experiments and are presented as mean ± SD (*P < 0.05, **P < 0.01, ***P < 0.001).