Project description:The clinical course of Crohn's disease (CD) is highly heterogeneous, confounding effective personalized therapy. There is a critical need to better understand the cellular mechanisms responsible for the variability in disease presentation and response to therapeutic modalities. We carried out whole transcriptome profiling in colon tissue from adult CD patients and controls and found that CD patients segregate into the same two molecular subtypes based on mRNA, long non-coding RNA, or microRNA profiles. MicroRNA-31 (miR-31) in colonic epithelium was identified as a primary contributor to this molecular stratification. We further performed small RNA-seq on formalin-fixed paraffin embedded colon and ileum biopsies obtained at the time of diagnosis from 130 treatment-naïve pediatric CD patients and controls. Colonic expression of miR-31 in pediatric patients was identified as predictive of either medically refractory rectal CD or fibrostenotic ileal CD. Our study reveals miRNAs as important molecular stratifiers and prognostic determinants of CD subtypes.

Project description:The course of Crohn's disease (CD) is heterogeneous, confounding effective personalized therapy. A previous analysis of differences in gene expression between patients with versus without CD groups revealed 2 subsets of patients with CD -- a group characterized by genes more highly expressed in the colon (colon-like CD) and a group with increased expression of ileum marker genes (ileum-like CD). We compared differences in microRNAs between these groups. We performed genome-wide microRNA profile analyses of colon tissues from 18 adults with CD and 12 adults without CD (controls). We performed principal component analyses to associate levels of microRNAs with CD subtypes. Colonic epithelial cells and lamina propria immune cells were isolated from intestinal tissues and levels of microRNA 31 (miR-31) were measured by real-time quantitative PCR. We validated the differential expression of miR-31 between the subtypes by measuring miR-31 levels in an independent cohort of 32 adult patients with CD and 23 controls. We generated epithelial colonoid cultures from controls and patients with CD, and measured levels of miR-31 in crypts. We performed genome-wide microRNA profile analyses of formalin-fixed paraffin-embedded colon and ileum biopsies from 76 treatment-naive pediatric patients with CD and 51 controls (234 samples) and collected data on disease features and outcomes. In comparing miRNA expression profiles between 9 patients with colon-like CD and 9 patients with ileum-like CD, we identified 19 miRNAs with significant differences in levels. We observed a 13.5-fold difference in level of miR-31-5p between tissues from patients with colon-like vs. ileum-like CD (Padj = 1.43 x 10-18). Principal component analysis found miR-31 to be the top contributor to the variance observed. Levels of miR-31 were increased 60-fold in tissues from patients with ileum-like CD compared with controls (Padj = 2.59 × 10-51). We validated the differential expression of miR-31 between the subtypes in the independent set of tissues. Colonoids derived from patients with CD had significantly higher levels of miR-31 than colonoids derived from control tissues (day 2 P=.041 and day 6 P=.0095). Levels of miR-31 were significantly increased in colon tissues from pediatric patients with CD compared with controls (~7.8-fold, P=4.64 ×10-7) and in ileum tissues from patients with CD patients vs. controls (~1.5-fold, P=9.97 × 10-7). A high level of miR-31 in index biopsies from pediatric patients with only inflammation and no other complications at time of diagnosis associated with development of fibrostenotic ileal CD. We identified differences in miR-31 levels in colon tissues from adult and pediatric patients with CD compared with controls, and in patients with ileum-like CD compared with colon-like CD. Further studies are needed to determine the mechanisms by which miR-31 might contribute to pathogenesis of this subtype of CD, or affect response to therapy.

Project description:The aim of the present study was to identify a pediatric inflamatory bowel disease (pIBD) characteristic microRNA profile serving as potential Crohns disease and ulcerative colitis specific diagnostic pattern and to further analyze the related target genes. Illumina small RNA sequencing was performed on inflamed and intact colonic biopsies of Crohn's disease and control patients. Selected miRs were further investigated by real-time reverse transcription (RT)-PCR. To analyze network connection of differentially expressed miRs and their target genes the MiRTarBase database and previous transcriptome sequencing data were used. We demonstrated a characteristic colonic miR pattern in pIBD that could facilitate deeper understanding of the pathomechanism of IBD and may serve as a diagnostic tool in the future.

Project description:Colon gene expression in human IBD. The three major clinical subsets of Inflammatory Bowel Disease (IBD) include colon-only Crohn's Disease (CD), ileo-colonic CD, and Ulcerative Colitis (UC). These experiments tested differential colon gene expression in these three types of IBD, relative to healthy control samples, and the local degree of mucosal inflammation as measured by the CD Histological Index of Severity (CDHIS). Colon biopsy samples were obtained from IBD patients at diagnosis and during therapy, and healthy controls. The global pattern of gene expression was determined using GeneSpring software, with a focus upon candidate genes identified in a recent genome wide association study in pediatric onset IBD. Data suggested that two of these candidate genes are up regulated in pediatric IBD, partially influenced by local mucosal inflammation. These experiments tested differential colon gene expression in healthy, CD, and UC samples for candidate genes identified in a recent pediatric onset IBD genome wide association study. Keywords: Single time point in CD and UC and healthy controls.

Project description:Colon gene expression in human IBD. The three major clinical subsets of Inflammatory Bowel Disease (IBD) include colon-only Crohn's Disease (CD), ileo-colonic CD, and Ulcerative Colitis (UC). These experiments tested differential colon gene expression in these three types of IBD, relative to healthy control samples, and the local degree of mucosal inflammation as measured by the CD Histological Index of Severity (CDHIS). Colon biopsy samples were obtained from IBD patients at diagnosis and during therapy, and healthy controls. The global pattern of gene expression was determined using GeneSpring software, with a focus upon candidate genes identified in a recent genome wide association study in pediatric onset IBD. Data suggested that two of these candidate genes are up regulated in pediatric IBD, partially influenced by local mucosal inflammation. These experiments tested differential colon gene expression in healthy, CD, and UC samples for candidate genes identified in a recent pediatric onset IBD genome wide association study. Keywords: Single time point in CD and UC and healthy controls. Colon RNA was isolated from biopsies obtained from CD and UC at diagnosis and during therapy and healthy controls. Samples were obtained from the most proximal affected segment of colon. Microarray experiments were performed as described in the CCHMC microarray core, and data was analyzed as described above in the summary. The '107' internal control CEL files (for batches 1,2,3,4,5) used for normalization of the Sample VALUEs are also contained within this data set.

Project description:scRNA-seq was applied to map the cellular landscape of colonic polyps from pediatric patients with SJP, JPS or PJS and aged-matched colonic tissues to help dissect polyp heterogeneity among different polyp subtypes and identify the underlying cellular and molecular events that may control disease outcome

Project description:This study aimed at genome-wide gene expression analysis of colonic biopsies from confirmed cases of intestinal tuberculosis (ITB) and Crohn's disease (CD) in comparison to controls. Further, to evaluate the role of T regulatory cells, Foxp3 mRNA expression was quantified in serum as well as colonic biopsies of patients with intestinal tuberculosis, Crohn's disease and controls.

Project description:The series was designed to identify new genes involved in the pathophysiology of inflammatory bowel disease (Crohn's disease and ulcerative colitis). This series represents a group of 31 samples, subdivided into 3 groups: 1) Normal controls: 11 samples; 2) patients with Crohn's diseases: 10 samples; 3) patients with ulcerative colitis: 10 samples. Each sample originated from a different patient or normal control, in total n=31 individuals were examined. Keywords = Inflammatory bowel disease Keywords = Crohn's disease Keywords = ulcerative colitis Keywords = expression screening Keywords = expression profiling Keywords: other

Project description:Colonic Crohn's Disease from a single patient in remission with mild disease index

Project description:We investigated whether the miRNA expression could distinguish lung cancers from normal tissues, examining 116 pairs of primary lung cancers with their corresponding adjacent normal lung tissues collected a minimum of 5 cm from the tumor. Our analysis identified a five microRNA classifier could distinguish malignant lung cancer lesions from adjacent normal tissues. SCLC could be distinguished from non small lung cancer by microRNAs profiling. Survival associations were examined with the SCC and adenocarcinoma subtypes. High hsa-miR-31 expression was associated with poor survival in SCC, and the association was confirmed in 20 independent SCC patients by qRT-PCR assays. Overall these findings may help advance the use of microRNA profiling in personalized diagnosis of lung cancers. Key Words: microRNA; lung cancer; microarray; diagnosis; prognosis cancer vs adjacent normal tissues