Abstract
The androgen receptor (AR) is the key driver of both early and advanced prostate cancer, making a complete understanding of its regulation important. Here, we report the identification of multiple AR-binding sites in the gene encoding the transcription factor CtBP2 (carboxyl terminal-binding protein), genetic variations of which have been associated with prostate cancer susceptibility. Notably, we found that SNPs in the human CTBP2 gene that were associated with prostate cancer development were correlated with AR-enhancer activity. High CtBP2 expression levels correlated with poor prognosis in patients, whereas CtBP2 silencing reduced tumor growth in a mouse xenograft model of human prostate cancer. Consistent with its function as a transcriptional corepressor, CtBP2 repressed tumor-suppressor genes and AR corepressors in prostate cancer cells, such as NCOR and RIP140, by binding with AR to the promoter enhancers of these genes. Global gene-expression analyses revealed a positive effect on androgen-mediated gene expression, and CtBP2 silencing was found to increase AR interactions with corepressors that limit histone modification. Overall, our results show how CtBP2 contributes to prostate cancer progression by modulating AR and oncogenic signaling.
Highlights
The actions of androgen receptor (AR) are essential for the proliferation of prostate cancer and its subsequent progression to castration-resistant prostate cancer (CRPC; refs. 1–3)
We compared the genomic loci of AR-binding genes with such susceptibility loci and found that CTBP2, a gene with corepressor function, is an AR-targeted gene with SNPs highly associated with prostate cancer development
Multiple AR-binding sites (ARBS) were found in the introns and 50 upstream region of CTBP2 (Fig. 1A)
Summary
The actions of androgen receptor (AR) are essential for the proliferation of prostate cancer and its subsequent progression to castration-resistant prostate cancer (CRPC; refs. 1–3). The actions of androgen receptor (AR) are essential for the proliferation of prostate cancer and its subsequent progression to castration-resistant prostate cancer Ligand-dependent dynamic changes in coregulator binding to AR are assumed to modulate AR-mediated signaling pathways by recruiting multiple histone–modifying enzymes [3, 4]. Histone deacetylases (HDAC) and histone acetyltransferases are involved in the transcriptional regulation of nuclear receptors by regulating histone acetylation [5]. Histone H3 lysine 9 (H3K9) demethylation is another representative histone marker for AR-mediated transcription [6]. Various changes of AR-associated coregulators by androgen treatment affect cell characteristics and define prostate cancer progression [4]. Note: Supplementary data for this article are available at Cancer Research Online (http://cancerres.aacrjournals.org/)
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