Description
Androgen receptor (AR) is the major therapeutic target in aggressive prostate cancer. However, targeting AR alone can result in drug resistance and disease recurrence. Therefore, simultaneous targeting of multiple pathways could in principle be an effective new approach to treating prostate cancer. Here we provide proof-of-concept that a small molecule inhibitor of nuclear ß-catenin activity (called C3) can inhibit both the AR and ß-catenin signaling pathways that are often misregulated in prostate cancer. Treatment with C3 ablated prostate cancer cell growth by disruption of both ß-catenin/TCF and ß-catenin/AR protein interaction, reflecting the fact that TCF and AR have overlapping binding sites on ß-catenin. Given that AR interacts with, and is transcriptionally regulated by ß-catenin, C3 treatment also resulted in decreased occupancy of ß-catenin on the AR promoter and diminished AR and AR/ß-catenin target gene expression. Interestingly, C3 treatment resulted in decreased AR binding to target genes accompanied by decreased recruitment of an AR and ß-catenin cofactor, CARM1, providing new insight into the unrecognized function of ß-catenin in prostate cancer. Importantly, C3 inhibited tumor growth in an in vivo xenograft model, and blocked renewal of bicalutamide-resistant sphere forming cells, indicating the therapeutic potential of this approach. Overall design: Compare and contrast the expression profile of prostate cancer cells treated with a Wnt inhibitor (C3) with respect to ß-catenin and AR knockdown (all samples in duplicates).