Abstract LB-141: Specific and potent silencing of K-Ras by asymmetric silencing RNA (aiRNA) reveals addiction of cancer stem cells to mutant K-Ras amplification

Abstract

Abstract K-Ras, the first oncogene identified in human cancer, is mutated in about 30% of human solid tumors. K-Ras protein, a small membrane-bound GTP-binding protein, acts as a molecular switch to transduce cell proliferation signals. Activating mutations of K-Ras lock the Ras protein into the hyper-active GTP-bound state, resulting in the activation of numerous signaling pathways that control cell survival and proliferation. Ras is also an important oncoprotein in many cancers where it is not mutated since Ras can be functionally activated through aberrant activation of other signal transduction elements. Activated K-Ras proteins are, therefore, found in a large proportion of all human cancers, and occupy a central position of interest. Hypermalignant cancer cells, termed cancer stem cells (CSCs), that are highly tumorigenic and metastatic have been isolated from cancer patients with a variety of tumor types and found to have high stemness properties. These stemness-high cancer cells are hypothesized to be fundamentally responsible for cancer metastasis and relapse. Furthermore, a number of stemness genes, such as beta-catenin, nanog, Sox2, Oct3/4 have been implicated in cancer cell stemness. The role of oncogenes such as K-Ras in cancer cell stemness, however, is not clear. To elucidate the role of K-Ras in the maintenance of cancer cell stemness, we employed asymmetric silencing RNA technology (aiRNA) which is able to silence target genes with high potency and precision. Moreover, aiRNA technology can be readily applied to CSCs. Here we report, to our surprise, that CSCs are not simply addicted to activating mutations of K-Ras, or activation of downstream regulators of the Ras pathway. However, CSCs with amplified mutant K-Ras are highly sensitive to K-Ras silencing. Moreover, the DNA copy number of the mutant K-Ras directly predicts the sensitivity of CSCs to K-Ras silencing. Our studies suggest that amplified mutated K-Ras is required for the maintenance of malignancy and cancer cell stemness, which may have significant implications for understanding the connections between oncogenes and cancer cell stemness, and for developing cancer stem cell inhibitors. Citation Format: Jun Oishi, Hiroki Umehara, Nithya Jesuraj, Jelena Barbulovic, Xiangao Sun, Chiang J. Li. Specific and potent silencing of K-Ras by asymmetric silencing RNA (aiRNA) reveals addiction of cancer stem cells to mutant K-Ras amplification. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr LB-141. doi:10.1158/1538-7445.AM2015-LB-141