Project description:High fat diets are known to be a risk factor for prostate cancer. In this study, we investigated the effect of high fat diet on mouse prostate gene expression. C57BL/6J mice were fed either a control or high fat diet for 12 weeks. Microarray analyses were performed on mouse ventral prostate (VP) and dorsolateral prostate (DLP), followed by canonical pathway analysis and regulatory network identification. mRNA changes were confirmed by real time PCR. Approximately 2,125, and 1,194 genes responded significantly to the high fat diet in VP, DLP, respectively. Pathways and networks related to oxidative stress, glutathione metabolism, NRF-mediated oxidative stress response and NF-kappaB were all differentially regulated by high fat diet. GPx3 mRNA levels were decreased by approximately 2-fold by high fat diet in all 3 prostate lobes. In human non-transformed prostate cells (PrSC, PrEC and BPH-1), cholesterol loading decreased GPx3 expression, and increased H2O2 levels of culture medium. Troglitazone increased GPx3 expression in 3 normal prostate cells, and decreased H2O2 levels. In addition, troglitazone attenuated cholesterol-induced H2O2 increase. Tissue from prostate cancer biopsies had decreased GPx3 mRNA and its level was inversely related to the Gleason score. High fat diet alters pathways related to many genes concerned with oxidative stress. GPx3, a gene identified by this analysis, was found to be down regulated by high fat diet and appears be decreased in human prostate cancers, suggesting that GPx3 may have a possible role in modulating carcinogenesis.

Project description:Understanding the systemic regulation of normal prostate gene expression by cholesterol diet is critical for deciphering the mechanisms responsible for the transition from healthy to pathogenic prostate conditions. To understand mechanism under cholesterol effect on prostate, we performed microarray analysis using prostate tissues from SCID or C57BL/6 mice feed with varying diet conditions containing high, low or normal cholesterol. The RNA is obtained from ventral prostate (VP), dorsal lateral prostate (DLP), and anterior prostate (AP) in 18 SCID mice.

Project description:This SuperSeries is composed of the following subset Series: GSE25461: Gene expression of three prostate lobes, ventral prostate (VP), dorsal lateral prostate (DLP), and anterior prostate (AP), by cholesterol diet GSE25472: Gene expression of LNCaP human prostate cells by cholesterol diet Refer to individual Series

Project description:Studies centered at the intersection of embryogenesis and carcinogenesis have identified striking parallels involving signaling pathways that modulate both developmental and neoplastic processes. In the prostate, reciprocal interactions between epithelium and stroma are known to influence neoplasia and also exert morphogenic effects via the urogenital sinus mesenchyme. In this study, we sought to determine molecular relationships between aspects of normal prostate development and prostate carcinogenesis. We first characterized the gene expression program associated with key points of murine prostate organogenesis spanning the initial in utero induction of prostate budding through maturity. We identified a highly reproducible temporal program of gene expression that partitioned according to the broad developmental stages of prostate induction, branching morphogenesis, and secretory differentiation. Comparisons of gene expression profiles of murine prostate cancers arising in the context of genetically engineered alterations in the Pten tumor suppressor and Myc oncogene identified significant associations between the profile of branching morphogenesis and both cancer models. Further, the expression of genes comprising the branching morphogenesis program, such as PRDX4, SLC43A1, and DNMT3A, was significantly altered in human neoplastic prostate epithelium. These results indicate that components of normal developmental processes are active in prostate neoplasia and provide further rationale for exploiting molecular features of organogenesis to understand cancer phenotypes. Whole male UGS (E14.5, E15.5, E16.5, and E17.5) or separated prostate lobes (P7, P30, and DP90) were dissected from C57BL6/J mice and snap frozen in liquid nitrogen. For each biological replication, we pooled 3 to 10 mice representing one or two litters. RNA from pools of UGS or specific prostate lobes (vp, ap, and dlp) was prepared using the Qiagen RNeasy Mini kit. We included an on-column DNaseI treatment to remove contaminating DNA. Before RNA amplification, we combined equal quantities of RNA from vp, ap, and dlp for the postnatal prostate samples. We amplified 1 ug of total RNA from each sample through one round using the Arcturus RiboAmp kit. For the E14.5 UGS reference sample, a second round of amplification was done to provide enough RNA for all microarrays. Each developmental sample was hybridized against the E14.5 UGS reference sample with a dye swap, for a total of 42 arrays. Warning: the normalized data for this study which was made public on December 1, 2009, was swapped for some samples. All normalized data has now been corrected as of February 25, 2010. Raw data was not affected.

Project description:PB-Cre/Pten/Smad4 is a transgenic mouse model of metastatic prostate adenocarcinoma (PMID: 21289624). To study the transcriptomic alterations associated with castration-resistant prostate cancer (CRPC), the PB-Cre/Pten/Smad4 males with established prostate cancer were treated with surgical castration followed by enzalutamide-admixed diet. After about 4 weeks, dorsolateral prostate (DLP) lobes of treatment-naïve prostate tumors (N=2) and CRPC tumors (N=3) were harvested and extracted for RNA purification and microarray profiling. To further study the transcriptomic changes associated with lung metastases of the PB-Cre/Pten/Smad4/mTmG CRPC model, the PB-Cre/Pten/Smad4 males with established prostate cancer were treated with surgical castration followed by enzalutamide-admixed diet. About 3 months later, from one mouse anterior prostate (AP), dorsolateral prostate (DLP), ventral prostate (VP) and GFP+ lung metastasis nodules were each harvested for RNA purification and microarray profiling.

Project description:In this study, we investigated the effect of high-fat diet on prostate cancer progression. We specifically analyzed the metabolome, transcriptome, and tumor microenvironment of MYC transgenic and wild-type mice subjected to high-fat diet (enriched in saturated fat) and control diet for 21 weeks.

Project description:We reported the gene expression profiles of prostate dorsal-lateral-ventral glands of prostate-specific Pten-/- mice on AIN93M diet, 60%Kcal high-fat diet, and AIN93M diet containing 0.05% delta-tocotrienol at 20 weeks of age.

Project description:A major task in dissecting the genetics of complex traits is to identify causal genes for disease phenotypes. We previously developed a method to infer causal relationships among genes through the integration of DNA variation, gene transcription, and phenotypic information. Here we validated our method through the characterization of transgenic and knockout mouse models of candidate genes that were predicted to be causal for abdominal obesity. Perturbation of eight out of the nine genes, with Gas7, Me1 and Gpx3 being novel, resulted in significant changes in obesity related traits. Liver expression signatures revealed alterations in common metabolic pathways and networks contributing to abdominal obesity and overlapped with a macrophage-enriched metabolic network module that is highly associated with metabolic traits in mice and humans. Integration of gene expression in the design and analysis of traditional F2 intercross studies allows high confidence prediction of causal genes, and identification of involved pathways and networks. Keywords: Obesity study in transgenic animals A total of 8 mice were used for this study (4 Gpx3 transgenic and 4 B6/DBA wildtype). The gene expression data is from the livers of 23 week old male wildtype and transgenic mice. These mice were fed a 4% fat chow diet until 11 weeks of age and then were fed a 6% fat chow diet until sacrifice at 23 weeks of age.

Project description:Mice carrying a mutation which deletes Bmal1 in Gfap-expressing astrocytes, and control animals were fed either a standard diet or a high fat diet for 16 weeks. Conditional deletion of Bmal1 in Gfap cells decreased weight gain and increased energy expenditure under high fat diet, hence the transcriptome of Brown Adipose Tissue (BAT) and Ventromedial Hypothalamus (VMH) were obtained.

Project description:The experimental goals of this study were to determine the differences in hypothalamus gene expression in genetically identical mice that have variability in their susceptibility towards diet-induced obesity following 6 weeks feeding a high fat diet, 2 weeks low fat diet and 6 weeks high fat diet. Keywords: Comparative gene expression analysis