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 2

β-catenin activation in hepatocytes modifies the liver microenvironment and specifically affects iNKT cell recruitment.

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β-catenin activation in hepatocytes modifies the liver microenvironment ...
(A) The ratio of liver weight/body weight was assessed, and the number of NPCs was evaluated in control and Apc–/– livers at 5 and 8 days after tamoxifen injection. (B) FACS analysis of NPCs was performed to assess the absolute number (Nb) of the various immune cell subpopulations (T cells, B cells, F4/80-positive cells, neutrophils, and NK cells) in Apc–/– and control livers, 8 days after tamoxifen injection. (C) FACS analysis of NPCs from Apc–/– and control livers was performed using α-GalCer/CD1d tetramer expression to assess the number (upper left panel) and proportion (upper right panel) of iNKT cells in the total population and the number (lower left panel) and proportion (lower right panel) of iNKTs expressing or not expressing the CD4 marker. (D) FACS analysis of NPCs was performed using α-GalCer/CD1d tetramer expression to assess the number (left panel) and the proportion (right panel) of iNKT cells in 12-month-old tumoral Lpk-myc+ livers and nontumoral control livers. (E) FACS analysis of NPCs was performed using α-GalCer/CD1d tetramer expression to assess the number (left panel) and the proportion (right panel) of iNKT cells in T-SV40 and control livers. The graphs represent the number or the proportion of cells among CD45+/Ly5+ cells in the liver. Dot plots show representative FACS analysis, and the numbers represent the percentage of iNKTs gated on CD45+Ly5+ cells. All data are representative of 6 independent experiments with 4 mice/group. *P < 0.05; **P < 0.01; ***P < 0.001 (controls vs. Apc–/– or controls vs. Lpk-myc+ or controls vs. T-SV40). Error bars represent SD.