AbstractmiRNAs have proven to be key regulators of gene expression and are differentially expressed in various diseases, including cancer. Our aim was to identify epigenetically dysregulated genes in prostate cancer. We performed miRNA expression profiling after relieving epigenetic modifications in 6 prostate cancer cell lines and nonmalignant prostate epithelial cells. Thirty‐eight miRNAs showed increased expression in any prostate cancer cell line after 5‐aza‐2′‐deoxycytidine (5azadC) and trichostatin A (TSA) treatments. Six of these also had decreased expression in clinical prostate cancer samples compared to benign prostatic hyperplasia. Among these, miR‐193b was methylated in 22Rv1 cell line at a CpG island ∼1 kb upstream of the miRNA locus. Expressing miR‐193b in 22Rv1 cells using pre‐miR‐193b oligonucleotides caused a significant growth reduction (p < 0.001) resulting from a decrease of cells in S‐phase of the cell cycle (p < 0.01). In addition, the anchorage independent growth was partially inhibited in transiently miR‐193b‐expressing 22Rv1 cells (p < 0.01). Altogether, our data suggest that miR‐193b is an epigenetically silenced putative tumor suppressor in prostate cancer.
Inactivation of tumor suppressor genes through deletion, mutation and epigenetic silencing has been shown to occur in cancer. In our study, we combined DNA demethylation and histone deacetylation inhibition treatments with suppression subtraction hybridization (SSH) and cDNA microarrays to identify potentially epigenetically downregulated genes in PC-3 prostate cancer cell line. We found 11 genes whose expression was upregulated after relieving epigenetic regulation. Expression of 3 genes [dual-specificity phosphatase 1 (DUSP1), serum/glucocorticoid regulated kinase (SGK) and spermidine/spermine N1-acetyltransferase (SAT)] was subsequently studied in clinical sample material using real-time quantitative RT-PCR and immunohistochemistry. The DUSP1 and SGK mRNA expression was lower in hormone-refractory prostate carcinomas compared to benign prostate hyperplasia (BPH) or untreated prostate carcinomas. BPH, normal prostate and highgrade prostate intraepithelial neoplasia (PIN) expressed high levels of DUSP1 and SGK proteins. Ninety-two percent and 48% of the prostate carcinomas showed almost complete lack of DUSP1 and SGK proteins, respectively, indicating common downregulation of these genes. The genomic bisulphite sequencing did not reveal dense hypermethylation in the promoter regions of either DUSP1 or SGK. In conclusion, the data suggest that downregulation of DUSP1 and SGK is an early event and could be important in the tumorigenesis of prostate cancer. ' 2005 Wiley-Liss, Inc.
Lack of good models has complicated investigations on the mechanisms of prostate cancer. By far, the most commonly used transgenic mouse model of prostate cancer is TRAMP, which, however, has not been fully characterized for genetic and epigenetic aberrations. Here, we screened TRAMP-derived C2 cell line for the alterations using different microarray approaches, and compared it to human prostate cancer. TRAMP-C2 had relatively few genomic copy number alterations according to array comparative genomic hybridization (aCGH). However, the gene copy number and expression were significantly correlated (p < 0.001). Screening genes for promoter hypermethylation using demethylation treatment with 5-aza-2 0 -deoxycytidine and subsequent expression profiling indicated 43 putatively epigenetically silenced genes. Further studies revealed that clusterin is methylated in the TRAMP-C2 cell line, as well as in the human prostate cancer cell line LNCaP. Its expression was found to be significantly reduced (p < 0.01) in untreated and hormone-refractory human prostate carcinomas. Together with known function of clusterin, the data suggest an epigenetic component in the regulation of clusterin in prostate cancer. ' 2008 Wiley-Liss, Inc.Key words: TRAMP; neoplasia; prostatic carcinoma; hypermethylation; array Although the chromosomal aberrations commonly associated with different stages of prostate cancer are well known, only a few individual genes have been shown to be involved in a significant proportion of prostate cancers (reviewed in Ref. 1). Identification of genetically or epigenetically altered genes in prostate cancer has been hampered by the lack of good model systems. Prostate carcinoma cells do not grow well in vitro, and there are only a few commonly available human prostate cancer cell lines, such as, PC-3, DU-145, LNCaP, 22Rv1, LAPC-4, MDA-Pca-2b, NCI-H660 and VCaP. Generally, the cell lines do not resemble clinical prostate carcinomas very well, most of them do not contain the chromosomal aberrations that are typical for prostate cancer (e.g., gains of 8q and Xq and losses of 6q, 8p, 10q and 13q; 2,3 ), and only LAPC-4 and VCaP express wild-type androgen receptor. 3 The transgenic adenocarcinoma of mouse prostate (TRAMP) mouse model was established in 1995, 4 and subsequently it has become the most commonly utilized transgenic mouse model of prostate cancer. In this model, the SV40 large T antigen (tag) is located under the probasin promoter, driving the expression of tag to the epithelium of the mouse prostate. These mice develop prostate cancer spontaneously by the age of 8-12 weeks, and the development and progression of cancer closely mimics the human disease; they develop premalignant prostatic intraepithelial lesions that progress into invasive focal carcinomas, forming also distant metastases. Three cell lines have been derived from the TRAMP mouse model: TRAMP-C1, TRAMP-C2 and TRAMP-C3. All of them have been established from a prostate tumor of a single 32-week-old TRAMP mouse. The TRAMP cell lines express A...
Micro-RNAs (miRNA) are important regulators of gene expression and often differentially expressed in cancer and other diseases. We have previously shown that miR-193b is hypermethylated in prostate cancer (PC) and suppresses cell growth. It has been suggested that miR-193b targets cyclin D1 in several malignancies. Here, our aim was to determine if miR-193b targets cyclin D1 in prostate cancer. Our data show that miR-193b is commonly methylated in PC samples compared to benign prostate hyperplasia. We found reduced miR-193b expression (P < 0.05) in stage pT3 tumors compared to pT2 tumors in a cohort of prostatectomy specimens. In 22Rv1 PC cells with low endogenous miR-193b expression, the overexpression of miR-193b reduced CCND1mRNA levels and cyclin D1 protein levels. In addition, the exogenous expression of miR-193b decreased the phosphorylation level of RB, a target of the cyclin D1-CDK4/6 pathway. Moreover, according to a reporter assay, miR-193b targeted the 3’UTR of CCND1 in PC cells and the CCND1 activity was rescued by expressing CCND1 lacking its 3’UTR. Immunohistochemical analysis of cyclin D1 showed that castration-resistant prostate cancers have significantly (P = 0.0237) higher expression of cyclin D1 compared to hormone-naïve cases. Furthermore, the PC cell lines 22Rv1 and VCaP, which express low levels of miR-193b and high levels of CCND1, showed significant growth retardation when treated with a CDK4/6 inhibitor. In contrast, the inhibitor had no effect on the growth of PC-3 and DU145 cells with high miR-193b and low CCND1 expression. Taken together, our data demonstrate that miR-193b targets cyclin D1 in prostate cancer.
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