Tumor suppressor function of ezrin-radixin-moesin-binding phosphoprotein-50 through &beta;-catenin/E-cadherin pathway in human hepatocellular cancer

doi:10.3748/wjg.v19.i8.1306

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Feb 28, 2013 (publication date) through Apr 24, 2024

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World Journal of Gastroenterology

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1007-9327

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Baishideng Publishing Group Inc, 7041 Koll Center Parkway, Suite 160, Pleasanton, CA 94566, USA

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World J Gastroenterol. Feb 28, 2013; 19(8): 1306-1313
Published online Feb 28, 2013. doi: 10.3748/wjg.v19.i8.1306

Tumor suppressor function of ezrin-radixin-moesin-binding phosphoprotein-50 through β-catenin/E-cadherin pathway in human hepatocellular cancer

Xiu-Lan Peng, Meng-Yao Ji, Zi-Rong Yang, Jia Song, Wei-Guo Dong

Xiu-Lan Peng, Meng-Yao Ji, Zi-Rong Yang, Jia Song, Wei-Guo Dong, Department of Gastroenterology, Renmin Hospital of Wuhan University, Wuhan 430060, Hubei Province, China

Author contributions: Peng XL and Dong WG contributed equally to this work; Peng XL, Ji MY, Yang ZR and Song J designed research; Peng XL, Ji MY, Yang ZR and Song J performed research; Yang ZR, Peng XL and Song J analyzed data; Peng XL and Dong WG wrote the paper.

Supported by Fundamental Research Funds for the Central Universities of China, No. 201130202020005

Correspondence to: Wei-Guo Dong, MD, Department of Gastroenterology, Renmin Hospital of Wuhan University, 238 Jiefang Road, Wuhan 430060, Hubei Province, China. dongwg66@163.com

Telephone: +86-27-88041911 Fax: +86-27-88041911

Received: November 9, 2012
Revised: January 1, 2013
Accepted: January 23, 2013
Published online: February 28, 2013

Abstract

AIM: To determine the effect and molecular mechanism of ezrin-radixin-moesin-binding phosphoprotein-50 (EBP50) in hepatocellular carcinoma (HCC).

METHODS: Three human HCC cell lines, i.e., SM-MC7721, HepG2 and Hep3B, were used. We transfected the Pbk-CMV-HA-EBP50 plasmid into SMMC7721 cells with Lipofectamine 2000 to overexpress EBP50. Western blotting were performed to determine the effects of the plasmid on EBP50 expression and to detect the expression of β-catenin and E-cadherin before and after the transfection of the plasmid into SMMC7721 cells. In vitro cell proliferation was assessed with a Cell Counting Kit-8 (CCK-8) assay. Cell cycle distribution was assessed with flow cytometry. Invasion and migration ability of before and after the transfection were determined with a transwell assay. Cell apoptosis was demonstrated with Annexin V-FITC. The effect of EBP50 overexpressing on tumor growth in vivo was performed with a xenograft tumor model in nude mice.

RESULTS: The transfection efficiency was confirmed with Western blotting (1.36 ± 0.07 vs 0.81 ± 0.09, P < 0.01). The CCK8 assay demonstrated that the growth of cells overexpressing EBP50 was significantly lower than control cells (P < 0.01). Cell cycle distribution showed there was a G0/G1 cell cycle arrest in cells overexpressing EBP50 (61.3% ± 3.1% vs 54.0% ± 2.4%, P < 0.05). The transwell assay showed that cell invasion and migration were significantly inhibited in cells overexpressing EBP50 compared with control cells (5.8 ± 0.8 vs 21.6 ± 1.3, P < 0.01). Annexin V-FITC revealed that apoptosis was significantly increased in cells overexpressing EBP50 compared with control cells (14.8% ± 2.7% vs 3.4% ± 1.3%, P < 0.05). The expression of β-catenin was downregulated and E-cadherin was upregulated in cells overexpressing EBP50 compared with control cells (0.28 ± 0.07 vs 0.56 ± 0.12, P < 0.05; 0.55 ± 0.08 vs 0.39 ± 0.07, P < 0.05). In vivo tumor growth assay conﬁrmed that up-regulation of EBP50 could obviously slow the growth of HCC derived from SMMC7721 cells (28.9 ± 7.2 vs 70.1 ± 7.2, P < 0.01).

CONCLUSION: The overexpression of EBP50 could inhibit the growth of SMMC7721 cells and promote apoptosis by modulating β-catenin, E-cadherin. EBP50 may serve asa potential therapeutic target in HCC.

Keywords: Hepatocellular carcinoma, Ezrin-radixin-moesin-binding phosphoprotein-50, Growth, Migration, Invasion