J Natl Cancer Inst. 2008 Jun 4;100(11):815-25. doi: 10.1093/jnci/djn150. Epub 2008 May 27.

Estrogen-dependent signaling in a molecularly distinct subclass of aggressive prostate cancer.

Source

Department of Pathology, Brigham and Women's Hospital, Boston, MA, USA.

Abstract

BACKGROUND:

The majority of prostate cancers harbor gene fusions of the 5'-untranslated region of the androgen-regulated transmembrane protease serine 2 (TMPRSS2) promoter with erythroblast transformation-specific transcription factor family members. The common fusion between TMPRESS2 and v-ets erythroblastosis virus E26 oncogene homolog (avian) (ERG) is associated with a more aggressive clinical phenotype, implying the existence of a distinct subclass of prostate cancer defined by this fusion.

METHODS:

We used complementary DNA-mediated annealing, selection, ligation, and extension to determine the expression profiles of 6144 transcriptionally informative genes in archived biopsy samples from 455 prostate cancer patients in the Swedish Watchful Waiting cohort (1987-1999) and the United States-based Physicians(') Health Study cohort (1983-2003). A gene expression signature for prostate cancers with the TMPRSS2-ERG fusion was determined using partitioning and classification models and used in computational functional analysis. Cell proliferation and TMPRSS2-ERG expression in androgen receptor-negative (NCI-H660) prostate cancer cells after treatment with vehicle or estrogenic compounds were assessed by viability assays and quantitative polymerase chain reaction, respectively. All statistical tests were two-sided.

RESULTS:

We identified an 87-gene expression signature that distinguishes TMPRSS2-ERG fusion prostate cancer as a discrete molecular entity (area under the curve = 0.80, 95% confidence interval [CI] = 0.792 to 0.81; P < .001). Computational analysis suggested that this fusion signature was associated with estrogen receptor (ER) signaling. Viability of NCI-H660 cells decreased after treatment with estrogen (viability normalized to day 0, estrogen vs vehicle at day 8, mean = 2.04 vs 3.40, difference = 1.36, 95% CI = 1.12 to 1.62) or ERbeta agonist (ERbeta agonist vs vehicle at day 8, mean = 1.86 vs 3.40, difference = 1.54, 95% CI = 1.39 to 1.69) but increased after ERalpha agonist treatment (ERalpha agonist vs vehicle at day 8, mean = 4.36 vs 3.40, difference = 0.96, 95% CI = 0.68 to 1.23). Similarly, expression of TMPRSS2-ERG decreased after ERbeta agonist treatment (fold change over internal control, ERbeta agonist vs vehicle at 24 hours, NCI-H660, mean = 0.57- vs 1.0-fold, difference = 0.43-fold, 95% CI = 0.29- to 0.57-fold) and increased after ERalpha agonist treatment (ERalpha agonist vs vehicle at 24 hours, mean = 5.63- vs 1.0-fold, difference = 4.63-fold, 95% CI = 4.34- to 4.92-fold).

CONCLUSIONS:

TMPRSS2-ERG fusion prostate cancer is a distinct molecular subclass. TMPRSS2-ERG expression is regulated by a novel ER-dependent mechanism.

PMID:: 18505969; [PubMed - indexed for MEDLINE]
PMCID:: PMC3073404

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Figure 2

The transcriptional program regulated by transmembrane protease, serine 2—v-ets erythroblastosis virus E26 oncogene homolog (avian) (TMPRSS2-ERG) fusion and target drugs that appear to reverse its molecular profile

Analysis of TMPRSS2-ERG gene signature through the molecular concepts map (MCM), a compendium of biologically related gene sets or “molecular concepts”. A) A network of molecular concepts related to high expression of erythroblast transformation specific (ETS) genes. Gene expression studies that have reported profiles that include ETS genes were individually explored for signatures associated with expression of ERG and ETV1. The results show statistically significant associations between the TMPRSS2-ERG fusion signature and ERG/ETV1 overexpression–related signatures. B) A broader evaluation of expression data, the Connectivity Map, and other molecular databases (see key to sources) demonstrates that the MCM analysis revealed estrogen receptor (ER) related concepts associated with the TMPRSS2-ERG gene signature. In addition, estrogenic signatures were associated with the TMPRSS2-ERG fusion signature. These estrogenic signatures included the top 5% underexpressed genes in MCF7 cells treated with fulvestrant at 1μM [Fulvestrant (5). Some of the other key signatures to emerge include the overexpression of ERG or ETV1 in prostate cancer expression array studies. These signatures include the top 10% overexpressed genes associated with ERG in different expression array datasets - Tomlins [ERG (1)], Glinsky [ERG (2)], Lapointe [ERG (4)], and the top 20% overexpressed with ERG and ETV1 in Vanaja [ERG, ETV1 (4)]. See “Results” for details. The arrows indicate the direction of expression with respect to the TMPRSS2-ERG fusion signature. The maps demonstrate related concepts linked by lines. The size of the nodes is related to the number of genes that make up the concept.

Estrogen-dependent signaling in a molecularly distinct subclass of aggressive prostate cancer

J Natl Cancer Inst. 2008 June 4;100(11):815-825.

Figure 3

Cell viability and expression of transmembrane protease serine 2 v-ets erythroblastosis virus E26 oncogene homolog (avian)(TMPRSS2-ERG) in response to estrogenic and antiestrogenic compounds

A) NCI-H660 cell proliferation after treatment with 17β-estradiol (E2) or specific ERα/β agonists. Cell viability assays were performed using NCI-H660 cells challenged with E2, the estrogen receptor alpha (ERα)-specific agonist propylpyrazole triol (PPT), the estrogen receptor beta (ERβ)-specific agonist diarylpropionitrile (DPN), or vehicle (ethanol, EtOH). Relative cell numbers were determined after 2, 3, 6, and 8 days of stimulation. Means and 95% confidence intervals from one representative experiment performed in octuplicate are shown. B) Expression of TMPRSS2-ERG in androgen receptor (AR) negative NCI-H660 cells after treatment with estrogenic and antiestrogenic compounds. NCI-H660 cells were treated for 12, 24, and 48 hours with E2, ERβ agonist DPN, ERαagonist PPT, raloxifene, fulvestrant, or tamoxifen (10 nM final concentration). NCI-H660 cells treated with vehicle (EtOH or dimethyl sulfoxide [DMSO]) alone were harvested at the same time points and used for normalization. Quantitative polymerase chain reactions were performed using primers spanning the TMPRSS2-ERG gene fusion. Means and 95% confidence intervals from three independent experiments performed in triplicate are shown. C) Expression of TMPRSS2-ERG in AR-positive VCaP cells transfected with ERβ (VCaP-ERβ) after treatment with estrogenic and antiestrogenic compounds. VCaP cells were transiently transfected with ERβ to increase expression of this receptor subtype (Supplementary Figure 5A, available online). VCaP-ERβ cells were treated for 12 or 24 hours with the same compounds. Vehicle-treated (DMSO or EtOH) VCaP-ERβ cells were used for normalization. Means and 95% confidence intervals are shown from two independent experiments performed in triplicate. Results for untransfected VCaP cells are shown in Supplementary Figure 5C (available online).

Estrogen-dependent signaling in a molecularly distinct subclass of aggressive prostate cancer

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Estrogen-dependent signaling in a molecularly distinct subclass of aggressive prostate cancer.

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