Project description:We used DNA microarrays to identify discriminative gene signatures for the purpose of classifying n-3 PUFA-fed, carcinogen injected Sprague Dawley rats at the initiation and progression stages. Animals were assigned to three dietary treatments differeing only in the type of fat (corn oi/n-6 PUFA, fish oil/n-3 PUFA, or olive oli/n-9 monounsaturated fatty acid). The effects of diet on colonic mucosal gene expression signatures during tumor initiation with the progression of colon cancer. Each dietary lipid source exhibited its own unique transcriptional profile, as assessed by linear discriminant analysis. Applying this novel approach we identified the single genes and the two- to three-gene combinations that best distinguished the dietary treatment groups. For the chemoprotective fish oil diet, mediators of stem cell homeostasis, e.g., ephrin B1 and bone morphogenic protein 4, were the top-permorming gene classifiers. keywords: diet analysis 29 samples were analyzed. 10 samples had repeat arrays. No control or reference samples were included.
Project description:We used DNA microarrays to identify discriminative gene signatures for the purpose of classifying n-3 PUFA-fed, carcinogen injected Sprague Dawley rats at the initiation and progression stages. Animals were assigned to three dietary treatments differeing only in the type of fat (corn oi/n-6 PUFA, fish oil/n-3 PUFA, or olive oli/n-9 monounsaturated fatty acid). The effects of diet on colonic mucosal gene expression signatures during tumor initiation with the progression of colon cancer. Each dietary lipid source exhibited its own unique transcriptional profile, as assessed by linear discriminant analysis. Applying this novel approach we identified the single genes and the two- to three-gene combinations that best distinguished the dietary treatment groups. For the chemoprotective fish oil diet, mediators of stem cell homeostasis, e.g., ephrin B1 and bone morphogenic protein 4, were the top-permorming gene classifiers. keywords: diet analysis
Project description:Assessment of Histone Tail Modifications and Transcriptional Profiling During Colon Cancer and Role of fish oil/pectin Diet Against Colon Carcinogen
Project description:Inflammation is a key component of pathological angiogenesis. Here we induce cornea neovascularisation using sutures placed into the cornea, and sutures are removed to induce a regression phase. We used whole transcriptome microarray to monitor gene expression profies of several genes
Project description:High-fat diet and obesity are high risk factors for colorectal cancer. The underlying mechanism is still unclear. Environmental factors alter the epigenome to affect gene expression thus the phenotype. In response to external stimuli, the cis-regulatory regions, especially enhancer loci, are key elements for regulating selective gene expression. We thus explored the effects of high-fat diet and the accompanying obesity on gene expression and the enhancer landscape in colon epithelium. High-fat diet exposed binding sites of transcription factors downstream of signaling pathways important in the initiation and progression of colon cancer. Meantime, colon specific enhancers were lost rendering the cells potential for dedifferentiation. The alteration at enhancer regions drives a specific transcription program promoting colon cancer progression. The comprehensive interrogation of enhancer changes by high-fat diet in colon epithelium provides a number of insights into the underlying biology of high-fat diet and obesity in increasing colon cancer risk, and provides potential therapeutic targets to treat obese colon cancer patients. ChIP sequencing of active enhancer mark h3k27ac in colon epithelium from wild type mice and NAG-1 transgenic mice treated with either low-fat diet or high-fat diet. The gene expression component of the study is included in GSE46843.
