Comparison of liver oncogenic potential among human RAS isoforms

Sook In Chung; Hyuk Moon; Hye-Lim Ju; Dae Yeong Kim; Kyung Joo Cho; Silvia Ribback; Frank Dombrowski; Diego F. Calvisi; Simon Weonsang Ro

doi:10.18632/oncotarget.6931

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Research Papers:

Comparison of liver oncogenic potential among human RAS isoforms

Sook In Chung, Hyuk Moon, Hye-Lim Ju, Dae Yeong Kim, Kyung Joo Cho, Silvia Ribback, Frank Dombrowski, Diego F. Calvisi and Simon Weonsang Ro _

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Oncotarget. 2016; 7:7354-7366. https://doi.org/10.18632/oncotarget.6931

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Abstract

Sook In Chung1, Hyuk Moon1, Hye-Lim Ju2, Dae Yeong Kim1, Kyung Joo Cho1, Silvia Ribback3, Frank Dombrowski3, Diego F. Calvisi3, Simon Weonsang Ro1,2

1Institute of Gastroenterology, Yonsei University College of Medicine, Seoul, Korea

2Liver Cirrhosis Clinical Research Center, Yonsei University College of Medicine, Seoul, Korea

3Institute of Pathology, University Medicine Greifswald, Greifswald, Germany

Correspondence to:

Simon Weonsang Ro, e-mail: [email protected]

Keywords: RAS isoform, liver cancer, hydrodynamic transfection, KRAS splicing variant, P16-INK4A

Received: July 07, 2015 Accepted: January 07, 2016 Published: January 18, 2016

ABSTRACT

Mutation in one of three RAS genes (i.e., HRAS, KRAS, and NRAS) leading to constitutive activation of RAS signaling pathways is considered a key oncogenic event in human carcinogenesis. Whether activated RAS isoforms possess different oncogenic potentials remains an unresolved question. Here, we compared oncogenic properties among RAS isoforms using liver-specific transgenesis in mice. Hydrodynamic transfection was performed using transposons expressing short hairpin RNA downregulating p53 and an activated RAS isoform, and livers were harvested at 23 days after gene delivery. No differences were found in the hepatocarcinogenic potential among RAS isoforms, as determined by both gross examination of livers and liver weight per body weight ratio (LW/BW) of mice expressing HRAS^Q61L, KRAS4B^G12V and NRAS^Q61K. However, the tumorigenic potential differed significantly between KRAS splicing variants. The LW/BW ratio in KRAS4A^G12V mice was significantly lower than in KRAS4B^G12V mice (p < 0.001), and KRAS4A^G12V mice lived significantly longer than KRRAS4B^G12V mice (p < 0.0001). Notably, tumors from KRAS4A^G12V mice displayed higher expression of the p16^INK4A tumor suppressor when compared with KRAS4B^G12V tumors. Forced overexpression of p16^INK4A significantly reduced tumor growth in KRAS4B^G12V mice, suggesting that upregulation of p16^INK4A by KRAS4A^G12V presumably delays tumor development driven by the latter oncogene.

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Research Papers:

Comparison of liver oncogenic potential among human RAS isoforms

Abstract