Transcriptional and metabolic rewiring of colorectal cancer cells expressing the oncogenic KRASG13D mutation

• Published in: British journal of cancer Vol. 121; no. 1; pp. 37 - 50
• Main Authors: Charitou, Theodosia, Srihari, Sriganesh, Lynn, Miriam A., Jarboui, Mohamed-Ali, Fasterius, Erik, Moldovan, Max, Shirasawa, Senji, Tsunoda, Toshiyuki, Ueffing, Marius, Xie, Jianling, Xin, Jin, Wang, Xuemin, Proud, Christopher G., Boldt, Karsten, Al-Khalili Szigyarto, Cristina, Kolch, Walter, Lynn, David J.
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 28.05.2019; Nature Publishing Group
• Subjects: 631/114/2114; 631/67/69; Activation; Biomedical and Life Sciences; Biomedicine; Cancer Research; Cell proliferation; Colorectal cancer; Colorectal carcinoma; Drug Resistance; Epidemiology; Epidermal growth factor receptors; Evolution; Genes; K-Ras protein; Metabolism; Metabolomics; Molecular Medicine; Mutation; Oncology; Protein biosynthesis; Protein synthesis; Proteins; Signal transduction; Transcription
• ISSN: 0007-0920; 1532-1827
• DOI: 10.1038/s41416-019-0477-7

Background Activating mutations in KRAS frequently occur in colorectal cancer (CRC) patients, leading to resistance to EGFR-targeted therapies. Methods To better understand the cellular reprogramming which occurs in mutant KRAS cells, we have undertaken a systems-level analysis of four CRC cell lines which express either wild type (wt) KRAS or the oncogenic KRAS G13D allele (mtKRAS). Results RNAseq revealed that genes involved in ribosome biogenesis, mRNA translation and metabolism were significantly upregulated in mtKRAS cells. Consistent with the transcriptional data, protein synthesis and cell proliferation were significantly higher in the mtKRAS cells. Targeted metabolomics analysis also confirmed the metabolic reprogramming in mtKRAS cells. Interestingly, mtKRAS cells were highly transcriptionally responsive to EGFR activation by TGFα stimulation, which was associated with an unexpected downregulation of genes involved in a range of anabolic processes. While TGFα treatment strongly activated protein synthesis in wtKRAS cells, protein synthesis was not activated above basal levels in the TGFα-treated mtKRAS cells. This was likely due to the defective activation of the mTORC1 and other pathways by TGFα in mtKRAS cells, which was associated with impaired activation of PKB signalling and a transient induction of AMPK signalling. Conclusions We have found that mtKRAS cells are substantially rewired at the transcriptional, translational and metabolic levels and that this rewiring may reveal new vulnerabilities in oncogenic KRAS CRC cells that could be exploited in future.