Abstract 4442: Inhibition of SIAH E3 ligase function leads to increased cell death in metastatic human cancer cells

Abstract

Abstract Hyperactivation of the oncogenic K-RAS pathway leads to increased cell proliferation, tumor growth, and oxidative stress associated with increased ROS production, heightened mitochondrial bioenergetics, and altered cancer metabolisms. Downstream of the K-RAS pathway, Seven-In-Absentia human Homolog (SIAH) is required for proper ERBB/RAS signal transduction. Human peroxiredoxin (PRDX) is an antioxidant protein, whose precise role in modulating oxidative stress during oncogenesis remains to be elucidated. Increased levels of oxidative stress alter the bioenergetics and functional integrity of mitochondrial biology under cellular stress. This study aims to elucidate the biological interaction previously detected between PRDX and SIAH2 via biochemical assays. We plan to investigate the functional role of SIAH2-PRDX interaction in modulating the stress response and adaptive cell survival in K-RAS-driven tumors. Also, we would like to investigate the biological significance of SIAH2-PRDX interaction in response to increased cellular stress in K-RAS-driven human cancer cells treated with standard chemotherapies. Mitochondrial tracking (MITO-tracker®) was used to evaluate mitochondrial integrity of SIAH-proficient and SIAH-deficient human lung (A549) and cervical (HeLa) cancer cells over six days. Immunofluorescence staining and bright field imaging were performed using DOX-inducible human breast (MDA-MB231) and cervical (HeLa) cancer cells to compare changes in organelle integrity and mitochondrial morphology, altered expression of the oxidative stress biomarker and cell death biomarkers in response to induction of the SIAH- proficient and SIAH-deficient states in highly aggressive human cancer cells. By using human pancreatic cancer tissue microarrays (TMAs), we found that the antioxidant protein PRDX is significantly upregulated and co-expressed with SIAH in human pancreatic tumor biospecimens. It seems that PRDX is an indicative biomarker of cellular and oncogenic K-RAS-induced oxidative stress in human pancreatic cancer. By blocking SIAH2 function downstream of the K-RAS signaling pathway, oxidative stress levels were markedly increased, evidenced by mitochondrial aggregations and dysfunction in both human lung and cervical cancer cells. In response to anti-SIAH2 therapy, human TNBC, NSCLC and cervical cancer cells underwent dramatic morphological changes due to the significant loss of cell junction, focal adhesion and cell attachment. These data have shown that anti-SIAH2-based anti-K-RAS and anticancer therapy is highly effective in inducing massive cell death in several highly invasive and metastatic cancer lines. Further investigation into the molecular mechanisms of anti-SIAH2-induced cellular stress and cell death may contribute to the future drug development and validation of a new and effective anti-SIAH2-based targeted therapy against metastatic human cancer in the future. Citation Format: Zena M. Urban, Lauren van Reesema, Minglei Bian, Thomas C. Smyrk, Gloria Peterson, Amy H. Tang. Inhibition of SIAH E3 ligase function leads to increased cell death in metastatic human cancer cells. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 4442. doi:10.1158/1538-7445.AM2014-4442