Cell cycle–related kinase is a direct androgen receptor–regulated gene that drives β-catenin/T cell factor–dependent hepatocarcinogenesis
Hai Feng, … , Ka F. To, Joseph J.Y. Sung
Hai Feng, … , Ka F. To, Joseph J.Y. Sung
Published July 11, 2011
Citation Information: J Clin Invest. 2011;121(8):3159-3175. https://doi.org/10.1172/JCI45967.
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Research Article Oncology

Cell cycle–related kinase is a direct androgen receptor–regulated gene that drives β-catenin/T cell factor–dependent hepatocarcinogenesis

Abstract

Hepatocellular carcinoma (HCC) is the fifth most common cancer worldwide. It is more prevalent in men than women. Related to this, recent genetic studies have revealed a causal role for androgen receptor (AR) in hepatocarcinogenesis, but the underlying molecular mechanism remains unclear. Here, we used genome-wide location and functional analyses to identify a critical mediator of AR signaling — cell cycle–related kinase (CCRK) — that drives hepatocarcinogenesis via a signaling pathway dependent on β-catenin and T cell factor (TCF). Ligand-bound AR activated CCRK transcription and protein expression via direct binding to the androgen-responsive element of the CCRK promoter in human HCC cell lines. In vitro analyses showed that CCRK was critical in human cell lines for AR-induced cell cycle progression, hepatocellular proliferation, and malignant transformation. Ectopic expression of CCRK in immortalized human liver cells activated β-catenin/TCF signaling to stimulate cell cycle progression and to induce tumor formation, as shown in both xenograft and orthotopic models. Conversely, knockdown of CCRK decreased HCC cell growth, and this could be rescued by constitutively active β-catenin or TCF. In primary human HCC tissue samples, AR, CCRK, and β-catenin were concordantly overexpressed in the tumor cells. Furthermore, CCRK overexpression correlated with the tumor staging and poor overall survival of patients. Our results reveal a direct AR transcriptional target, CCRK, that promotes hepatocarcinogenesis through the upregulation of β-catenin/TCF signaling.

Authors

Hai Feng, Alfred S.L. Cheng, Daisy P. Tsang, May S. Li, Minnie Y. Go, Yue S. Cheung, Gui-jun Zhao, Samuel S. Ng, Marie C. Lin, Jun Yu, Paul B. Lai, Ka F. To, Joseph J.Y. Sung

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Figure 8

Silencing β-catenin expression reduces CCRK-induced tumorigenicity in nude mice.

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Silencing β-catenin expression reduces CCRK-induced tumorigenicity in nu...
(A) Expression of CCRK, CCND1, EGFR, active, and total β-catenin in Vec-shCtrl-LO2, CCRK-shCtrl-LO2, and CCRK–shβ-catenin–LO2 cells was detected by Western blot. β-actin was used as a loading control. (B) CCRK-shCtrl-LO2 cells displayed highly elevated tumor growth in nude mice when compared with Vec-shCtrl-LO2 cells. However, CCRK-induced tumorigenicity was decreased by β-catenin knockdown, as shown in mice injected with CCRK–shβ-catenin–LO2 cells. (C) Images of the tumors formed in the nude mice injected with the 3 types of cells are shown. (D) Intrahepatic tumorigenicity of Vec-shCtrl-LO2, CCRK-shCtrl-LO2, and CCRK–shβ-catenin–LO2 cells was determined by an orthotopic mouse model. Images of the tumors excised from the livers in each group are shown. (E) Knockdown of β-catenin significantly attenuated the intrahepatic tumorigenicity induced by CCRK. The weight and volume of the excised tumors in the 3 groups were measured. *P < 0.05; **P < 0.01; ***P < 0.001. Data are presented as mean + SD of 3 independent experiments.