Abstract B14: Attacking the Achilles' heel in the oncogenic K-RAS signaling pathway to block tumorigenesis and metastasis in human cancers

Abstract

Abstract Hyperactive K-RAS signaling is a major menace that drives aggressive tumor growth and metastasis in human cancer. Currently, there are no effective ways to treat human cancers that have oncogenic K-RAS mutations that confer drug resistance, aggressive tumor growth, systemic metastasis, and poor clinical outcome. Therefore, finding novel approaches and new drug targets to inhibit oncogenic K-RAS is an urgent goal and the major challenge in cancer therapy and treatment. Instead of targeting an upstream signaling module such as EGFR/HER2/KRAS/B-RAF/MEK/MAPK/AKT/mT0R, we targeted the most downstream signaling module in the EGFR/HER2/K-RAS pathway called the SIAH-dependent proteolytic machinery. SIAHs are the human homologs of seven-in-absentia (SINA), an evolutionarily conserved RING E3 ligase, an essential downstream signaling module, and a critical gatekeeper required for proper ERBB/RAS/RAF signal transduction. Guided by the insights and principles learned from Drosophila RAS signaling pathway, we conducted preclinical studies to dissect SIAH function in the context of ERBB/K-RAS-mediated tumorigenesis and metastasis in human cancer cells and tumor specimens. We found that: 1) SIAH is a novel biomarker for human cancer, i.e., SIAH specifically decorates proliferating tumor cells (not stromal or immune cells in the tumor microenvironment). SIAH expression is progressively and markedly upregulated as human cancer progresses to the advanced stages in human pancreatic, lung, breast, and prostate cancers; and 2) inhibiting SIAH function is highly effective to abolish tumorigenesis and metastasis in multiple of the most aggressive human cancer cell lines known in the literature that include pancreatic cancer cells (MiaPaCa and Panc-1), lung cancer cells (A549, H727, and UMC11), invasive breast cancer cells (MDA-MB-231, MDA-MB-468, and MDA-MB-435), colorectal cancer cells (SW620 and HCT116) and hormonal-refractory prostate cancer cells (PC-3 and DU-145) in our preclinical studies. These findings demonstrate that SIAH is an attractive and logical new therapeutic target for novel anti-K-RAS and anticancer therapy in human cancer. Through our work, SIAH has emerged as a new and effective drug target against oncogenic K-RAS activation in human cancer cells. Using anti-SIAH molecules to block K-RAS signaling in human cancer is an excellent example of science going from the bench (basic research in fruit flies) to the bedside (preclinical studies and ultimately clinical trials). As a highly evolutionarily conserved E3 ligase and the most downstream gatekeeper of EGFR/HER2/K-RAS/B-RAF signaling pathway, SIAH is uniquely and logically positioned to become a next-generation anti-K-RAS drug target. Our preclinical studies have demonstrated that SIAH-dependent proteolysis is an Achilles' heel for human cancer cells. Albeit at an early preclinical stage, knowledge gained from our study has great promise that has generated many excitements with immediate translational values. Anti-SIAH-based small molecule inhibitors may aid in expanding our arsenal of novel anticancer therapies. By attacking the oncogenic ERBB/K-RAS/B-RAF pathway using multipronged synergistic inhibitions at upstream (EGFR/HER2 membrane receptors), midstream (K-RAS/B-RAF/MEK/mTOR), and downstream (SIAH E3 ligase) signaling modules in parallel, we will be in a great position to halt the genesis, progression, and metastasis of the most aggressive and the deadliest forms of human cancers. If successful, we hope to translate our findings to the cancer clinics to treat many cancer patients with metastatic diseases in the near future. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the Second AACR International Conference on Frontiers in Basic Cancer Research; 2011 Sep 14-18; San Francisco, CA. Philadelphia (PA): AACR; Cancer Res 2011;71(18 Suppl):Abstract nr B14.