Project description:Changes in gene expression profile of intestinal (ILEUM) Tumors from APCmin/+/VP16LXRa vs APCmin/+/VP16. The hypothesis tested in the present study was that LXRa overexpression influence cancer growth modulating lipid metabolism in cancer cells. Results provide the information that LXRa induces genes encoding proteins able to regulate cholesterol efflux. Total RNA obtained from Ileum tumors from APCmin/+/VP16LXRa mice was compared to total RNA extracted from APCmin/+/VP16 mice.
Project description:Changes in gene expression profile of intestinal (ILEUM) Tumors from APCmin/+/VP16LXRa vs APCmin/+/VP16. The hypothesis tested in the present study was that LXRa overexpression influence cancer growth modulating lipid metabolism in cancer cells. Results provide the information that LXRa induces genes encoding proteins able to regulate cholesterol efflux.
Project description:Changes in gene expression profile of intestinal (COLON) Tumors from APCmin/+/VP16LXRa vs APCmin/+/VP16. The hypothesis tested in the present study was that LXRa overexpression influence cancer growth modulating lipid metabolism in cancer cells. Results provide the information that LXRa induces expression of genes encoding proteins able to regulate cholesterol efflux. Total RNA obtained from colonic tumors from APCmin/+/VP16LXRa mice was compared to total RNA extracted from APCmin/+/VP16 mice.
Project description:Changes in gene expression profile of intestinal (COLON) Tumors from APCmin/+/VP16LXRa vs APCmin/+/VP16. The hypothesis tested in the present study was that LXRa overexpression influence cancer growth modulating lipid metabolism in cancer cells. Results provide the information that LXRa induces expression of genes encoding proteins able to regulate cholesterol efflux.
Project description:To describe the protein profile in hippocampus, colon and ileum tissue’ changing after the old faeces transplants, we adopted a quantitative label free proteomics approach.
Project description:Analysis of metabolic pathway gene expression. The hypothesis tested in the present study is to assess mRNA level changes in metabolic genes in intestinal tumors from APCmin mice overexpressing PGC-1β specifically in the intestine. Total RNA obtained from ileum tumor samples from iPGC-1β/APCmin mice was compared to the total RNA extracted from FVBN/APCmin mice.
Project description:In this study, we investigated the role of LIN28 in intestinal tumor initiation and invasive progression. We generated animal models with just intestinal LIN28B overexpression, or in combination with Apcmin/+ background. The animals develop intestinal and colorectal tumors with histology ranging from adenoma to adenocarcinoma. total RNA isolated from mouse small intestinal tumors with LIN28B overexpression, or duodenum and colon Apcmin tumors and LIN28B;Apcmin tumors