Abstract 2171: A new small molecule compound restoring p53 pathway induces cell death via active p73 and degradation of mutant p53 in colorectal cancer cells.

Abstract

Abstract Tumor suppressor p53 is critical for protection against cancer. Over 50% of human cancers harbor mutant p53 which is hyper-stabilized and blocks p53 family member p73/p63 activity. Mutations not only abrogate the p53 tumor suppressor function, but also endow mutant p53 with gain-of-function (GOF) as pro-oncogene which contributes to tumor progression and chemotherapy resistance. Targeting mutant p53 to restore the p53 pathway is a promising strategy for cancer therapy. Small molecule restoring p53 pathway is mostly based on conformational change in mutant p53 or upregulation of wild-type p53. It is barely reported about small molecule compound with ability to both restore p53 pathway and deplete mutant p53 GOF. In this study, we describe a new small molecular compound, NCI-8 that specifically depletes mutant p53 protein and activates p73 to induce p53 responsive transcriptional activity and cell death in mutant p53 colorectal cancer cells. NCI-8 treatment increased p53 responsive bioluminescence and p53 target gene expression such as P21, Puma and DR5 specifically in mutant p53 colorectal cancer cells. Accompanied with p53 pathway restoration, NCI-8 down-regulated mutant p53 in cancer cells with no evident wild-type conformational change in mutant p53. NCI-8- mediated down-regulation of mutant p53 was rescued by MG132, a proteasome inhibitor and nutlin-3, an MDM2 inhibitor. NCI-8 induced ubiquitination of mutant p53. Taken together these results indicate that NCI-8 induces mutant p53 protein degradation via an MDM2-mediated ubiquitin-proteasome pathway. Further, we examined the role of p73 in NCI-8 action to p53 pathway restoration. NCI-8 enhanced p53-responsive bioluminescence with10-fold increase in cells overexpressing p73, but only 2-fold increase in p53-overexpressing cells. NCI-8- induced p53-responsive bioluminescence was significantly reduced by knock-down of p73, but not by knock-down of mutant p53. Knock-down of p73 significantly reduced NCI-8 induction of p53 target genes in mutant p53 cancer cells. These results indicate that p73 is required for NCI-8 to restore the p53 pathway in mutant p53-expressing cancer cells. Importantly, NCI-8 induced cell death in cancer cells, but not in normal cells. No genotoxicity of NCI-8 was detected in cancer and normal cells. Knock-down of p73 reduced cell apoptosis in mutant p53-expressing cancer cells treated with NCI-8, while, overexpression of p73 sensitized these cancer cells to NCI-8 induced cell death. Combination treatments demonstrate that NCI-8 synergizes with CPT11chemotherapy to induce cell death in mutant p53 colorectal cancer cells. These results suggest that p53 pathway restoration and cell death induced by NCI-8 occur via activation of p73 and depletion of mutant p53 GOF. NCI-8 is a promising lead compound specifically targeting mutant p53 for the development of new anti-cancer drugs. Citation Format: Shengliang Zhang, Lanlan Zhou, Bo Hong, Noel Warfel, Antonius Van den heuvel, David Dicker, Levy Kopelovich, Wafik El-Deiry. A new small molecule compound restoring p53 pathway induces cell death via active p73 and degradation of mutant p53 in colorectal cancer cells. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 2171. doi:10.1158/1538-7445.AM2013-2171