Therapeutic Targeting of Beta-Catenin in Colon Cancer
Drebin, Jeffrey A.   
Washington University, Saint Louis, MO, United States

Genetic deletions of the adenomatous polyposis coil (APC) tumor suppressor gene occur in the majority of colon cancers Loss of the APC gene products' ability to down-regulate the beta-catenin protein is hypothesized to represent a critical mechanism by which APC loss contributes to the etiology of colon cancer However, the APC protein interacts with multiple other proteins, including gamma-catenin and hDLG, that may play a role in neoplastic cell growth To date there has been little direct examination of the role of beta-catenin in the neoplastic behavior of human colon cancer cells The precise mechanisms by which beta-catenin signaling enhances the growth and survival of neoplastic cells are unknown, and the characterization of changes in gene expression resulting from beta-catenin-mediated transcriptional effects has been limited The overall goal of this project is to directly evaluate the role of beta-catenin on the neoplastic properties of APC-mutant intestinal neoplasms Antisense oligodeoxynucleotides capable of specifically suppressing beta-catenin expression in human cancer cells have been identified The ability of the antibiotic doxycycline, at clinically achievable concentrations, to inhibit beta-catenin expression has also been elucidated These beta-catenin-suppressive agents will be used to define beta-catenin-dependent effects on cell cycle and apoptotic regulatory mechanisms in APC-mutant colon cancer cells Effects of beta- catenin on c-myc expression and function will be characterized Changes in gene expression profiles of APC-mutant colon cancer cells resulting from suppression of beta-catenin expression will be evaluated, and compared with changes induced by upstream alterations in APC or downstream alterations in Tcf4 activity Effects of suppressing beta-catenin on spontaneous adenoma formation will be evaluated using APC-mutant min mice and antitumor effects resulting from the in vivo suppression of beta-catenin expression will be evaluated in APC-mutant human colon cancer xenografts Collectively, these studies will define the role of beta-catenin in the neoplastic growth of APC-mutant colon cancer cells and will characterize the efficacy of chemopreventive and therapeutic strategies that target beta-catenin in vivo.