Project description:Ulcerative Colitis is an autoimmune inflammatory bowel disease that causes chronic inflammation in the colon and the rectum. Althoung extensively researched, the underlying molecular mechanisms of Ulcerative Colitis remain elusive. Especially, there is a lack of understanding about regulatory non-coding miRNA expression during Ulcerative Colitis. Therefore, we performed high-throughput miRNA profiling of colon tissue biopsies from XX patients with active Ulcerative Colitis, XX patients with quiescent Ulcerative Colitis and XX Symptomatic Control individuals.
Project description:To seek effects of inflammatory status and 5-aminosalicylic acid (5-ASA, mesalazine) exposure ex vivo on mRNA levels within rectal mucosal biopsies from patients with ulcerative colitis. A total of 12 biopsies were analysed, 3 biological replicates in each of 4 categories (inflamed with or without 5-ASA, non-inflamed with or without 5-ASA).
Project description:To seek effects of inflammatory status and 5-aminosalicylic acid (5-ASA, mesalazine) exposure ex vivo on mRNA levels within rectal mucosal biopsies from patients with ulcerative colitis.
Project description:Ulcerative Colitis is an autoimmune inflammatory bowel disease that causes chronic inflammation in the colon and the rectum. Althoung extensively researched, the underlying molecular mechanisms of Ulcerative Colitis remain elusive. Especially, there is a lack of understanding about regulatory non-coding miRNA expression during Ulcerative Colitis in a cell type-specific context. Therefore, we performed high-throughput miRNA profiling of Fluorescence Activated Cell Sorting (FACS)-enriched CD66a+ and CD44+ colonic epithelial cell populations from colon tissue biopsies of 16 patients with active Ulcerative Colitis, 15 patients with quiescent Ulcerative Colitis and 17 Symptomatic Control individuals.
Project description:Background and aims: Mucosal abnormalities are potentially important in the primary pathogenesis of ulcerative colitis (UC). We investigated the mucosal transcriptomic expression profiles of biopsies from patients with UC and healthy controls (HC), taken from macroscopically non-inflamed tissue from the terminal ileum and three colonic locations with the objective of identifying abnormal molecules that might be involved in disease development. Methods: Whole-genome transcriptional analysis was performed on intestinal biopsies taken from 24 UC, 26 HC and 14 patients with CrohnM-bM-^@M-^Ys disease. Differential gene expression analysis was performed at each tissue location separately and results were then meta-analysed using FisherM-bM-^@M-^Ys method. Significantly differentially expressed genes were validated using qPCR. Gene location within the colon was determined using immunohistochemistry, subcellular fractionation, electron and confocal microscopy. DNA methylation was quantified by pyrosequencing. Results: Seven probes were abnormally expressed throughout the colon in UC patients with Family with sequence similarity member 5 C (FAM5C) being the most significantly underexpressed. Attenuated expression of FAM5C in UC was independent of inflammation, unrelated to phenotype or treatment, and remained low at rebiopsy approximately 23 months later. FAM5C is localised to the brush border of the colonic epithelium and expression is influenced by DNA methylation within its promoter. Conclusion: Genome-wide expression analysis of non-inflamed mucosal biopsies from UC patients identified FAM5C as significantly under-expressed throughout the colon in a major sub-set of patients with UC. Low levels of this gene could predispose to or contribute to the maintenance of the characteristic mucosal inflammation seen in this condition. Total RNA was extracted from the intestinal biopsies taken from macroscopically normal mucosa in the rectum, descending colon, ascending colon and terminal ileum in clinically quiescent Ulcerative colitis and Crohn's disease patients and compared to healthy controls. Normalized data for 26,261 probes out of 47,323 only. Criteria for inclusion not specified. The non-normalized matrix contains the complete non-normalized data for all probes.
Project description:Long non-coding RNA (lncRNA) mechanisms in gut inflammation are poorly understood. Tissue-specificity of lncRNAs linked to patient outcomes may direct interventions with fewer off-target effects. Using 693 mucosal samples, we prioritize lncRNAs linked with ulcerative colitis (UC) course and define an atlas of lncRNAs expressed along the gastrointestinal tract dysregulated in celiac duodenum, Crohn Disease ileum, and UC rectum using independent test and validation cohorts.
Project description:The samples are a part of a study aiming at diagnosing ulcerative colitis from genome-wide gene expression analysis of the colonic mucosa. Colonic mucosal samples were collected as endoscopic pinch biopsies from ulcerative colitis patients and from control subjects. Samples with and without macroscopic signs of inflammation were collected from the patients. Keywords: Disease state analysis
Project description:The samples are a part of a study aiming at diagnosing ulcerative colitis from genome-wide gene expression analysis of the colonic mucosa. Colonic mucosal samples were collected as endoscopic pinch biopsies from ulcerative colitis patients and from control subjects. Samples with and without macroscopic signs of inflammation were collected from the patients. Experiment Overall Design: The series contain eight UC samples with macroscopic signs of inflammation, 13 UC smaples without macroscopic signs of inflammation, five control subjects.
Project description:Expression data was used to evaluate changes to the transcriptional signatures across the healthy and inflamed colon. A comparison between healthy controls and active ulcerative colitis signatures was also made. Mucosal biopsy specimens were harvested at four anatomical locations within the colon from healthy volunteers and patients with active ulcerative colitis. specimens were fixed in RNA later for 24 hours at room temperature and stored at -80C for a further 24 hours prior to RNA extraction and microarray analysis.