Profiling of transcripts and proteins modulated by K-ras oncogene in the lung tissues of K-ras transgenic mice by omics approaches

Lee,Sojung; Kang,Jungwoo; Cho,Minchul; Seo,Eunhee; Choi,Heesook; Kim,Eunjin; Kim,Junghee; Kim,Heejong; Kang,Gum Yong; Kim,Kwang Pyo; Park,Young-Ho; Yu,Dae-Yeul; Yum,Young Na; Park,Sue-Nie; Yoon,Do-Young

doi:10.3892/ijo_00000138

Profiling of transcripts and proteins modulated by K-ras oncogene in the lung tissues of K-ras transgenic mice by omics approaches

Authors:
- Sojung Lee
- Jungwoo Kang
- Minchul Cho
- Eunhee Seo
- Heesook Choi
- Eunjin Kim
- Junghee Kim
- Heejong Kim
- Gum Yong Kang
- Kwang Pyo Kim
- Young-Ho Park
- Dae-Yeul Yu
- Young Na Yum
- Sue-Nie Park
- Do-Young Yoon
View Affiliations

Affiliations: Department of Bioscience and Biotechnology, Konkuk University, Gwangjin-gu, Seoul 143-701, Korea
Published online on: January 1, 2009 https://doi.org/10.3892/ijo_00000138
Pages: 161-172

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Abstract

The mutated K-ras gene is involved in ≈30% of human cancers. In order to search for K-ras oncogene-induced modulators in lung tissues of K-ras transgenic mice, we performed microarray and proteomics (LC/ESI-MS/MS) analysis. Genes (RAB27b RAS family, IL-1RA, IL-33, chemokine ligand 6, epiregulin, EGF-like domain and cathepsin) related to cancer development (Wnt signaling pathway) and inflammation (chemokine/cytokine signaling pathway, Toll receptor signaling) were up-regulated while genes (troponin, tropomodulin 2, endothelial lipase, FGFR4, integrin α8 and adenylate cyclase 8) related to the tumor suppression such as p53 pathway, TGF-β signaling pathway and cadherin signaling pathway were down-regulated by K-ras oncogene. Proteomics approach revealed that up-regulated proteins in lung adenomas of K-ras mice were classified as follows: proteins related to the metabolism/catabolism (increased from 7 to 22% by K-ras gene), proteins related to translation/transcription and nucleotide (from 4 to 6%), proteins related to signal transduction (from 3 to 5%), proteins related to phosphorylation (from 1 to 2%). ATP synthase, Ras oncogene family, cytochrome c oxidase, flavoprotein, TEF 1, adipoprotein A-1 BP, glutathione oxidase, fatty acid BP 4, diaphorase 1, MAPK4 and transgelin were up-regulated by K-ras oncogene. However, integrin α1, Ras-interacting protein (Rain), endothelin-converting enzyme-1d and splicing factor 3b were down-regulated. These studies suggest that genes related to cancer development and inflammation were up-regulated while genes related to the tumor suppression were down-regulated by K-ras, resulting in the tumor growth. Putative biomarkers such as cell cycle related genes (Cdc37), cancer cell adhesion (Glycam 1, integrin α8, integrin αX and Clec4n), signal transduction (Tlr2, IL-33, and Ccbp2), migration (Ccr1, Ccl6, and diaphorase 1 (Cyb5r3) and cancer development (epiregulin) can be useful for diagnosis and as prognosis markers and some of the target molecules can be applied for prevention of cancer.