Claudin-18–mediated YAP activity regulates lung stem and progenitor cell homeostasis and tumorigenesis
Beiyun Zhou, … , Edward D. Crandall, Zea Borok
Beiyun Zhou, … , Edward D. Crandall, Zea Borok
Published February 5, 2018
Citation Information: J Clin Invest. 2018;128(3):970-984. https://doi.org/10.1172/JCI90429.
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Research Article Pulmonology

Claudin-18–mediated YAP activity regulates lung stem and progenitor cell homeostasis and tumorigenesis

Abstract

Claudins, the integral tight junction (TJ) proteins that regulate paracellular permeability and cell polarity, are frequently dysregulated in cancer; however, their role in neoplastic progression is unclear. Here, we demonstrated that knockout of Cldn18, a claudin family member highly expressed in lung alveolar epithelium, leads to lung enlargement, parenchymal expansion, increased abundance and proliferation of known distal lung progenitors, the alveolar epithelial type II (AT2) cells, activation of Yes-associated protein (YAP), increased organ size, and tumorigenesis in mice. Inhibition of YAP decreased proliferation and colony-forming efficiency (CFE) of Cldn18–/– AT2 cells and prevented increased lung size, while CLDN18 overexpression decreased YAP nuclear localization, cell proliferation, CFE, and YAP transcriptional activity. CLDN18 and YAP interacted and colocalized at cell-cell contacts, while loss of CLDN18 decreased YAP interaction with Hippo kinases p-LATS1/2. Additionally, Cldn18–/– mice had increased propensity to develop lung adenocarcinomas (LuAd) with age, and human LuAd showed stage-dependent reduction of CLDN18.1. These results establish CLDN18 as a regulator of YAP activity that serves to restrict organ size, progenitor cell proliferation, and tumorigenesis, and suggest a mechanism whereby TJ disruption may promote progenitor proliferation to enhance repair following injury.

Authors

Beiyun Zhou, Per Flodby, Jiao Luo, Dan R. Castillo, Yixin Liu, Fa-Xing Yu, Alicia McConnell, Bino Varghese, Guanglei Li, Nyam-Osor Chimge, Mitsuhiro Sunohara, Michael N. Koss, Wafaa Elatre, Peter Conti, Janice M. Liebler, Chenchen Yang, Crystal N. Marconett, Ite A. Laird-Offringa, Parviz Minoo, Kunliang Guan, Barry R. Stripp, Edward D. Crandall, Zea Borok

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Figure 6

Increased tumor development in aged Cldn18–/– mice.

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Increased tumor development in aged Cldn18–/– mice. (A) Frequency of lun...
(A) Frequency of lung tumors in mice (age 18–20 months) determined by H&E staining. Bar graph represents the mean ± SEM. Fisher’s exact test. n = 17–22 mice. *P < 0.05. (B) H&E staining of a representative lung adenocarcinoma (LuAd) in a Cldn18–/– mouse at 3 different magnifications, shows peripheral/subpleural location in lung (left panel) and papillary features (middle and right panels). n = 22. Scale bars (from left to right): 1 mm, 200 μm, and 100 μm. (C) Ex vivo micro-computed tomography (micro-CT) lung images. Lung specimens from age-paired (15–16 months) WT and Cldn18–/– mice (n = 3) were scanned. Upper panel (i and ii): 3D reconstruction of representative WT and Cldn18–/– mouse lungs. Scale bar: 5 mm. Lower panel (iii and iv): Representative coronal sections of micro-CT images corresponding to lungs in upper panel. Tumors are indicated by arrows. (D) Cells in tumors of Cldn18–/– mice are SFTPC+ (red) but SCGB1A1. DAPI (blue) is the nuclear counterstain. n = 3 biological replicates. Scale bar: 20 μm. (E) Cldn18 mRNA expression is reduced based on data from the Illumina Human WG-6v3.0 Beadarray in 58 matched microdissected LuAd and adjacent nontumor lung (Adj-NTL) (left panel) (Cldn18.1) and RNA-seq data from 287 LuAd and 19 NTL based on data generated by The Cancer Genome Atlas (TCGA) Research Network (Cldn18.1 and -18.2) (right panel). Paired t test for Beadarray data and unpaired t test for TCGA data. (F) Representative confocal images of CLDN18 (red) and NKX2-1 (green) show decreased CLDN18 protein expression in human LuAd compared with Adj-NTL. n = 3. Scale bars: 50 μm. DAPI is the nuclear counterstain. (G) Stage-dependent decreases in CLDN18 mRNA expression using microarray data from 58 matched human LuAd and adjacent NTL samples fit with an exponential regression model. P = 1.75 × 10–32.