Abstract
Aberrant expression of HOXC6 and HOXC4 is commonly detected in prostate cancer. The high expression of these transcription factors is associated with aggressive prostate cancer and can predict cancer recurrence after treatment. Thus, HOXC4 and HOXC6 are clinically relevant biomarkers of aggressive prostate cancer. However, the molecular mechanisms by which these HOXC genes contribute to prostate cancer is not yet understood. To begin to address the role of HOXC4 and HOXC6 in prostate cancer, we performed RNA-seq analyses before and after siRNA-mediated knockdown of HOXC4 and/or HOXC6 and also performed ChIP-seq to identify genomic binding sites for both of these transcription factors. Our studies demonstrate that HOXC4 and HOXC6 co-localize with HOXB13, FOXA1 and AR, three transcription factors previously shown to contribute to the development of prostate cancer. We suggest that the aberrantly upregulated HOXC4 and HOXC6 proteins may compete with HOXB13 for binding sites, thus altering the prostate transcriptome. This competition model may be applicable to many different human cancers that display increased expression of a HOX transcription factor.
Highlights
Prostate cancer is estimated to be the most common cancer type for new cancer cases and the second ranked cause of death by cancer for men in the USA [1]
Our studies demonstrate that HOXC4 and HOXC6 co-localize with HOXB13, FOXA1 and Androgen Receptor (AR), three transcription factors previously shown to contribute to the development of prostate cancer
Because the DNA binding domains of the two transcription factors (TFs) are very similar, it was possible that the genes we identified were the subset of genes that were uniquely responsive to reduction of HOXC4 or HOXC6, but that we had missed a set of genes for which the two TFs play redundant regulatory functions
Summary
Prostate cancer is estimated to be the most common cancer type for new cancer cases and the second ranked cause of death by cancer for men in the USA [1]. Previous studies have shown an association of HOX family members with prostate cancer [2]. HOXB13 controls the normal embryological development of the prostate gland [3, 4]. Studies have shown HOXB13-mediated repression of Androgen Receptor (AR) signaling, suggesting that HOXB13 may function as a growth suppressor in prostate tumors [5, 6]. Others have linked HOXB13 expression to androgen-dependent proliferation and migration in prostate cancer cells and it has been proposed that HOXB13 contributes to the development of prostate cancer by reprogramming AR binding sites [7,8,9,10]. HOXC family members are not expressed in normal
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