Wnt/β-catenin signaling accelerates mouse lung tumorigenesis by imposing an embryonic distal progenitor phenotype on lung epithelium
Eugenia C. Pacheco-Pinedo, … , Francesco J. DeMayo, Edward E. Morrisey
Eugenia C. Pacheco-Pinedo, … , Francesco J. DeMayo, Edward E. Morrisey
Published April 1, 2011
Citation Information: J Clin Invest. 2011;121(5):1935-1945. https://doi.org/10.1172/JCI44871.
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Wnt/β-catenin signaling accelerates mouse lung tumorigenesis by imposing an embryonic distal progenitor phenotype on lung epithelium

Abstract

Although mutations in Kras are present in 21% of lung tumors, there is a high level of heterogeneity in phenotype and outcome among patients with lung cancer bearing similar mutations, suggesting that other pathways are important. Wnt/β-catenin signaling is a known oncogenic pathway that plays a well-defined role in colon and skin cancer; however, its role in lung cancer is unclear. We have shown here that activation of Wnt/β-catenin in the bronchiolar epithelium of the adult mouse lung does not itself promote tumor development. However, concurrent activation of Wnt/β-catenin signaling and expression of a constitutively active Kras mutant (KrasG12D) led to a dramatic increase in both overall tumor number and size compared with KrasG12D alone. Activation of Wnt/β-catenin signaling altered the KrasG12D tumor phenotype, resulting in a phenotypic switch from bronchiolar epithelium to the highly proliferative distal progenitors found in the embryonic lung. This was associated with decreased E-cadherin expression at the cell surface, which may underlie the increased metastasis of tumors with active Wnt/β-catenin signaling. Together, these data suggest that activation of Wnt/β-catenin signaling can combine with other oncogenic pathways in lung epithelium to produce a more aggressive tumor phenotype by imposing an embryonic distal progenitor phenotype and by decreasing E-cadherin expression.

Authors

Eugenia C. Pacheco-Pinedo, Amy C. Durham, Kathleen M. Stewart, Ashley M. Goss, Min Min Lu, Francesco J. DeMayo, Edward E. Morrisey

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Figure 3

Coactivation of KrasG12D and Ctnnb1ex3flox leads to an imposition of an embryonic distal progenitor phenotype on tumor epithelium derived from Clara cells of the adult lung.

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Coactivation of KrasG12D and Ctnnb1ex3flox leads to an imposition of an ...
(AC) β-Galactosidase staining of CC10-Cre:R26RlacZ fated cells showing that the tumors in CC10-Cre:KrasG12D and CC10-Cre:KrasG12D:Ctnnb1ex3flox animals at 3 months of age are derived from Clara cells. (DF) Immunostaining of epithelium of CC10-Cre, CC10-Cre:KrasG12D, and CC10-Cre:KrasG12D:Ctnnb1ex3flox mice for β-galactosidase expression at 3 months of age. (GI) Immunostaining of epithelium of CC10-Cre, CC10-Cre:KrasG12D, and CC10-Cre:KrasG12D:Ctnnb1ex3flox lungs for SP-C expression. Assessment of Sox9 (JL), Sox2 (MO), Gata6 (PR), Wnt7b (SU), and Id2 (VX) expression using immunostaining (JO and VX) or in situ hybridization (PU) in animals of the indicated genotypes at 3 months of age. (Y) Q-PCR of these same genes. Three individual animals of the indicated genotype were used for Q-PCR analysis shown in Y, and data are presented as mean ± SEM. Changes in gene expression for Sox9 (P < 0.001), Sox2 (P < 0.05), Gata6 (P < 0.07), Wnt7b (P < 0.005), and Id2 (P < 0.004) were considered significant as indicated. Scale bars: AC, 400 μm; DX, 100 μm.