Oncogenic β-catenin triggers an inflammatory response that determines the aggressiveness of hepatocellular carcinoma in mice
Marie Anson, … , Christine Perret, Jean-Pierre Couty
Marie Anson, … , Christine Perret, Jean-Pierre Couty
Published January 17, 2012
Citation Information: J Clin Invest. 2012;122(2):586-599. https://doi.org/10.1172/JCI43937.
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Oncogenic β-catenin triggers an inflammatory response that determines the aggressiveness of hepatocellular carcinoma in mice

Abstract

Hepatocellular carcinoma (HCC) is the third leading cause of cancer-related death worldwide. Its pathogenesis is frequently linked to liver inflammation. Gain-of-function mutations in the gene encoding β-catenin are frequent genetic modifications found in human HCCs. Thus, we investigated whether inflammation was a component of β-catenin–induced tumorigenesis using genetically modified mouse models that recapitulated the stages of initiation and progression of this tumoral process. Oncogenic β-catenin signaling was found to induce an inflammatory program in hepatocytes that involved direct transcriptional control by β-catenin and activation of the NF-κB pathway. This led to a specific inflammatory response, the intensity of which determined the degree of tumor aggressiveness. The chemokine-like chemotactic factor leukocyte cell–derived chemotaxin 2 (LECT2) and invariant NKT (iNKT) cells were identified as key interconnected effectors of liver β-catenin–induced inflammation. In genetic deletion models lacking the gene encoding LECT2 or iNKT cells, hepatic β-catenin signaling triggered the formation of highly malignant HCCs with lung metastasis. Thus, our results identify inflammation as a key player in β-catenin–induced liver tumorigenesis. We provide strong evidence that, by activating pro- and antiinflammatory mediators, β-catenin signaling produces an inflammatory microenvironment that has an impact on tumoral development. Our data are consistent with the fact that most β-catenin–activated HCCs are of better prognosis.

Authors

Marie Anson, Anne-Marie Crain-Denoyelle, Véronique Baud, Fanny Chereau, Angélique Gougelet, Benoit Terris, Satoshi Yamagoe, Sabine Colnot, Mireille Viguier, Christine Perret, Jean-Pierre Couty

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Figure 3

Characterization of iNKT cells in β-catenin–activated livers.

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Characterization of iNKT cells in β-catenin–activated livers. NPCs were ...
NPCs were collected from livers 8 days after tamoxifen injection. (A) FACS profiles for CD69 expression (left panel) and MFI of CD69 (right panel) in NPCs gated on α-GalCer–loaded CD1d tetramer-positive cells (iNKTs) from Apc–/– and control livers, including those from the CD4+ and CD4 subpopulations. (B) Paraffin-embedded sections obtained from control and Apc–/– livers after ConA challenge were stained with H&E. Scale bars: 50 μm. (C) Levels of AST were measured in the sera of control and Apc–/– mice 12 hours after ConA challenge. (D) Intracellular staining for IFN-γ (top panels) and IL-4 (bottom panels) was performed after in vitro stimulation of NPCs. This analysis was carried out in CD4+ and CD4 α-GalCer/CD1d tetramer-positive cells. The graphs represent the percentage or the number of cells among the CD45+Ly5+ cells in the liver. The histograms are representative FACS analyses. All data are representative of 6 independent experiments with 5 mice/group. *P < 0.05; **P < 0.01; ***P < 0.001 (controls vs. Apc–/–). Error bars represent SD.