Abstract
Studies of ETS-mediated prostate oncogenesis have been hampered by the lack of suitable experimental systems. Here we describe a new conditional mouse model which gives robust, homogenous ERG expression throughout the prostate. When combined with homozygous Pten loss, mice developed accelerated, highly penetrant invasive prostate cancer. In mouse prostate tissue, ERG significantly increased androgen receptor (AR) binding. Robust ERG-mediated transcriptional changes, observed only in the setting of Pten loss, included restoration of AR transcriptional outut and genes involved in cell death, migration, inflammation and angiogenesis. Similarly, ETV1 positively regulated AR cistrome and transcriptional output in ETV1-translocated, PTEN-deficient human prostate cancer cells. In two large clinical cohorts, ERG and ETV1 expression correlated with higher AR transcriptional output in PTEN-negative prostate cancer specimens. We propose that ETS factors cause prostate-specific transformation by altering the AR cistrome, priming the prostate epithelium to respond to aberrant upstream signals such as PTEN loss.
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