Project description:Nucleosome positionings of gastric mucosa with intestinal metaplasia at single cell resolution

Project description:Histone modification of H3K27acethylation in gastric mucosa with intestinal metaplasia

Project description:ChIP-seq analysis of H3K27acethylation using gastric mucosa with intestinal metaplasia

Project description:Background: Intestinal metaplasia (IM) is a gastric precancerous lesion that precedes the development of gastric cancer in up to 3.77 cases/1000 person-years. It consists in a trans-differentiation process of gastric to intestinal tissue. Two histological subtypes exist, complete (CIM) and incomplete (IIM), the latter having higher progression rates to gastric cancer . Our objective was to identify molecular processes responsible for the tumoral transition from intestinal metaplasia to GC and the initial steps of this lesion Methods: We used expression microarray to compare the transcriptome of intestinal metaplasia subtypes that progress to gastric cancer (IIM-GC and CIM-GC) after a follow-up period with respect to those that do not progress (IIM control and CIM control). Also, IM-NoGC (IM control, comprising both IIM and CIM Control) was compared with healthy gastric mucosa. Differentially expressed genes were obtained and functional analyses (GSEA and IPA softwares) were performed. Some deregulated genes were validated by qPCR. Results: Histological subtypes of intestinal metaplasia that progress or not to GC differ less among them than to healthy mucosa. Incomplete intestinal metaplasia has a higher number of over-expressed carcinogenic genes and molecular processes than the complete subtype. Most relevant molecular processes and genes in this group include antigenic processing, inflammation, activation of cell cycle and cell proliferation, oncogenes and tumor suppressors. When IM-NoGC is compared with healthy gastric mucosa new identified transcripts include TRIM, TMEM, homeobox, transporters and nucleolar RNAs SNORDs116. We confirm previously reported processes such us intestinal differentiation, metabolism of lipids and of xenobiotics and identify new ones such as non tumoral Warburg effect and melatonin degradation. Conclusions: Differentially expressed genes and molecular processes have been identified for the first time in intestinal metaplasia that progress to gastric cancer. New genes and molecular processes have also been identified in intestinal metaplasia in comparison with healthy gastric mucosa.

Project description:We induced an intestinal metaplasia in human gastric mucosa in vitro, followed by the overexpression of CDX2 gene using a tet-on system.

Project description:DNA methylation in gastric crypts with and without intestinal metaplasia, and NOS2-inducible cell lines

Project description:Metaplasia of the gastric epithelia (intestinal metaplasia, IM) is a pre-malignant lesion associated with increased gastric cancer (GC) risk.

Project description:Duodenal and gastric mucosa microbiota of intestinal metaplasia (IM) patients

Project description:gastric mucosa Raw sequence reads

Project description:In this study, we aimed to reveal whether gastric mucosa with AIG has a specific gene expression profile, involving in its histology and chronic inflammation. To approach this, we performed comprehensive analysis of gene expression using gastric mucosa with atuoimmune gastritis, that with H. pylori-associated gastritis and healthy mucosa without any inflammation. Potential mechanisms of the gene expression changes in gastric mucosa with AIG were also explored.