Abstract A88: Make a difference and save lives in human metastatic cancer by attacking the Achilles heel in the oncogenic ERBB/K-RAS signaling pathway

Abstract

Abstract The dismal prognosis of patients diagnosed with metastatic cancer points to our limited arsenal of effective anticancer and anti-metastasis therapies. Chemotherapy, radiation and targeted therapies are largely ineffective against metastatic cancer, resulting in the deaths of more than half million cancer patients each year. Oncogenic EGFR/HER2/K-RAS/B-RAF pathway activation is a major menace that drives aggressive cancer cell dissemination, tumor invasion and systemic metastasis. Therefore, finding novel approaches and new drug targets to inhibit hyperactive EGFR/HER2/K-RAS/B-RAF signaling is an urgent goal and major challenge in the struggle against metastatic diseases. Guided by the insights and principles learned from the evolutionarily conserved RAS signal transduction cascade in Drosophila, we targeted the most downstream signaling module in the EGFR/HER2/K-RAS/B-RAF signaling pathway, the SIAH-dependent proteolytic machinery. SIAHs are the human homologs of Seven-In-Absentia (SINA), a highly conserved RING E3 ligase, an essential downstream signaling module and a critical “gatekeeper” required for proper EGFR/HER2/K-RAS/B-RAF signal transduction. We found that inhibiting SIAH function is highly effective in halting cancer cell dissemination, altering cell adhesion and motility, inhibiting tumor invasion and cancer metastasis of human cancer cells. Importantly, our anti-SIAH-based anticancer strategy is effective in reducing tumor burdens in the late-stage and aggressive tumor growth and metastasis in the preclinical models. These exciting results and new findings demonstrate that SIAH is a highly attractive, mechanistically logical and great therapeutic target for developing novel anti-ERBB/K-RAS/B-RAF and anticancer therapies against invasive and metastatic cancer. Through our work, SIAH has emerged as a new, potent and promising drug target against metastatic diseases. As a highly evolutionarily conserved E3 ligase and the most downstream “gatekeeper” of EGFR/HER2/K-RAS/B-RAF signaling pathway, SIAH is ideally and logically positioned to become a next-generation anticancer and anti-metastasis drug target in the clinic. By simultaneously attacking the tumor-driving and metastasis-promoting ERBB/K-RAS signaling pathway using multi-pronged synergistic inhibitions at upstream (EGFR/HER2 membrane receptors), midstream (K-RAS/B-RAF/MEK/mTOR) and downstream (SIAH E3 ligase) signaling modules, we aim to make a difference and save lives from the deadliest forms of human metastatic cancers in the future. Citation Format: Amy H. Tang, Yang Liao, Minglei Bian, Vasilena Zheleva, Zena M. Urban, Monicah M. Njogu, Xiaofei Gao, Oscar A. Gonzalez, Justin J. Odanga, Bruce E. Knudsen, Roger R. Perry, Richard A. Hoefer, Thomas C. Smyrk, Gloria M. Petersen. Make a difference and save lives in human metastatic cancer by attacking the Achilles heel in the oncogenic ERBB/K-RAS signaling pathway. [abstract]. In: Proceedings of the AACR Special Conference on Tumor Invasion and Metastasis; Jan 20-23, 2013; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2013;73(3 Suppl):Abstract nr A88.