Project description:Progression to androgen independent is the main cause of death in prostate cancer, and the mechanism is still unclear. By reviewing the expression profiles of 26 prostate cancer samples in a holistic view, we found a group of genes differentially expressed in androgen independent compared with androgen dependent groups (p value< 0.01, t test). Focusing on apoptosis, proliferation, hormone and angiogenesis, we found a group of genes such as thioredoxin domain containing 5 (TXNDC5), tumor necrosis factor receptor superfamily, member 10a (TNFRSF10A), ribosomal protein S19 (RPS19) and Janus kinase 2 (JAK2) up-regulated in androgen independent prostate cancer, which could play important roles in the transition from androgen dependent to androgen independent and could be biomarkers of prognosis. The main aim was comparing the androgen dependent and androgen independent prostate cancer to identify differentially expressed genes. In addition, we added several normal prostate tissue sample for comparisons. Totally 29 experiments were performed without replicates. 3 for normal prostate tissue, 8 for androgen independent cancer and 18 for androgen dependent prostate cancer. In all experiments, the reference samples are common reference, a pool with unrelated fetal tissues.

Project description:Progression to androgen independent is the main cause of death in prostate cancer, and the mechanism is still unclear. By reviewing the expression profiles of 26 prostate cancer samples in a holistic view, we found a group of genes differentially expressed in androgen independent compared with androgen dependent groups (p value< 0.01, t test). Focusing on apoptosis, proliferation, hormone and angiogenesis, we found a group of genes such as thioredoxin domain containing 5 (TXNDC5), tumor necrosis factor receptor superfamily, member 10a (TNFRSF10A), ribosomal protein S19 (RPS19) and Janus kinase 2 (JAK2) up-regulated in androgen independent prostate cancer, which could play important roles in the transition from androgen dependent to androgen independent and could be biomarkers of prognosis. Keywords: cell type comparison

Project description:Androgen receptor-independent function of FoxA1 in prostate cancer metastasis

Project description:Prostate cancer - comparison of androgen-dependent and -independent microdissected primary tumor

Project description:EZH2 is frequently over-expressed in aggressive and metastatic solid tumors, including castration resistant prostate cancer (CRPC). We sought to determine EZH2-dependent gene expression programmes in prostate cancer progression, and found an intriguing functional switch of EZH2 from a repressor to an activator during CRPC development. We used microarrays to detail the global profiling of gene expression that are differentially regulated upon EZH2 depletion in two different prostate cancer cell lines. The androgen-dependent prostate cancer cell line LNCaP and the LNCaP-derived androgen-independent cell line LNCaP-abl (abl) were used for this study, as their transcription profiles strongly resemble that of clinical androgen-dependent and castration resistant prostate tumors, respectively. EZH2 was silenced by specific siRNAs in both cell lines, and total RNA was extracted and hybridized on Affymetrix microarrays.

Project description:PRK1/PKN1 controls migration and metastasis of androgen-independent prostate cancer cells

Project description:Orthotopic tumors were previously generated from parental Prostate Luminal (PLum) cells under androgen‑dependent (PLum-AD) and androgen‑independent (PLum-AI) conditions in order to establish cellular models of prostate cancer progression (Abou-Kheir et al., 2011; doi: 10.1371/journal.pone.0026112). We used microarrays to evaluate the differential gene expression profiles underlying progression of prostate cancer from primary androgen-dependent stage to advanced androgen-independent stage using newly isolated murine prostate cancer cell lines. Those cell lines represent novel in vitro models of androgen‑dependent and –independent prostate cancer, recapitulating the progression of the disease to a more invasive phenotype upon androgen deprivation.

Project description:The aim of this study is to identify the LSD1 target genes in metastatic androgen independent prostate cancer Lysine-specific demethylase 1 (LSD1) was shown to control gene expression and cell proliferation of androgen-dependent prostate cancer (PCa) cells, whereas the role of LSD1 in androgen-independent metastatic prostate cancer remains elusive. Here, we show that depletion of LSD1 leads to increased migration and invasion of androgen-independent PCa cells. Transcriptome and cistrome analyses reveal that LSD1 regulates expression of lysophosphatidic acid receptor 6 (LPAR6) and cytoskeletal genes including the focal adhesion adaptor protein paxillin (PXN). Enhanced LPAR6 signalling upon LSD1 depletion promotes migration with concomitant phosphorylation of PXN. In mice LPAR6 overexpression enhances, whereas knockdown of LPAR6 abolishes metastasis of androgen-independent PCa cells. Taken together, we uncover a novel mechanism of how LSD1 controls metastasis and identify LPAR6 as a promising therapeutic target to treat metastatic prostate cancer.

Project description:Androgens are a prequisite for the development of human prostate and prostate cancer. Androgen action is mediated via androgen receptor. Androgen ablation therapy is used for the treatment of metastasized prostate cancer. The aim of the study was to identify genes differentially expressed in benign human prostate, prostate cancer and in prostate tissue three days after castration. These genes are potential diagnostic and therapeutic targets for prostate cancer and benign prostatic hyperplasia. We used microarrays to examine the gene expression profiles in benign prostate adjacent to prostate cancer and prostate cancer in radical prostatectomy specimens and in prostate tissue samples taken 3 days after surgical castration performed for treatment of prostate cancer.

Project description:Identification of microRNAs differentially expressed in prostatic secretions of patients with prostate cancer