Abstract B70: Developing a new and potent anti-K-RAS strategy by inhibiting SIAH E3 ligase, the most downstream “gatekeeper” in the oncogenic K-RAS signal pathway, to block well-established pancreatic tumor growth

Hyperactive K-RAS signaling is a major menace that drives aggressive cancer cell dissemination, tumor progression and metastasis in human pancreatic cancer. Currently, there are no effective therapies to control human pancreatic 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 activation is an urgent goal and major challenge in targeted therapy development in pancreatic cancer. Instead of targeting an upstream signaling module such as EGFR/K-RAS/B-RAF/MEK/MAPK/ERK/AKT/mTOR, we targeted the most downstream signaling module in the K-RAS signaling 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 K-RAS signal transduction. Guided by the insights and principles learned from Drosophila RAS signaling pathway, we have conducted preclinical studies to dissect SIAH function in the context of K-RAS-mediated tumorigenesis and metastasis in human pancreatic cancer cells and tumor specimens. We found that inhibiting SIAH function is highly effective to abolish well-established and late-stage pancreatic tumor growth and metastasis in our pre-clinical studies. These findings demonstrate that SIAH is indeed an attractive, logical and potent anti-K-RAS therapeutic target for us to develop new and effective anticancer strategy against human pancreatic cancer. Through our work, SIAH has emerged as a new and effective drug target against oncogenic K-RAS hyperactivation in human pancreatic cancer. As one of the most evolutionarily conserved E3 ligases, SIAH is ideally and logically positioned to become a next-generation anti-K-RAS drug target in human cancer. Our preclinical studies have demonstrated that “SIAH-dependent proteolysis” is indeed an Achilles’ heel for human pancreatic cancer cells. Hence, anti-SIAH-based small molecule inhibitors may aid in expanding our arsenal of novel anticancer therapies in pancreatic cancer. By attacking the most downstream “gatekeeper” critical for the proper oncogenic ERBB/K-RAS signaling transmission, we may be in a position to halt the genesis, progression and metastasis of the most aggressive and the deadliest forms of human pancreatic cancer in the future. Citation Format: Vasilena Zheleva, Minglei Bian, Xiaofei Gao, Justin J. Odanga, Monicah M. Njogu, Zena M. Urban, Bruce E. Knudsen, Richard A. Hoefer, Roger R. Perry, Amy H. Tang. Developing a new and potent anti-K-RAS strategy by inhibiting SIAH E3 ligase, the most downstream “gatekeeper” in the oncogenic K-RAS signal pathway, to block well-established pancreatic tumor growth. [abstract]. In: Proceedings of the AACR Special Conference on Pancreatic Cancer: Innovations in Research and Treatment; May 18-21, 2014; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2015;75(13 Suppl):Abstract nr B70.