Project description:DNA Methylation Profiling of Human Colonoid Monolayers Under Repeated Submergence Injury

Project description:We report whole genome data for in vitro mouse monolayers with different culture time/transepithelial electrical resistance and colonic crypts. Mouse colonic monolayers were generated on gradient cross-linked collagen scaffolds.

Project description:Studying the physiology and pathology of gastrointestinal (GI) tissues requires tools that can accurately mimic their complex architecture and functionality in vitro. Organoids have emerged as one such promising tool, though their closed structures with poorly accessible lumen and limited observability makes readouts challenging. In this study, we introduce a bioengineered organoid platform that generates bilaterally accessible 3D tissue models, allowing independent manipulation of both the apical and basal sides of patterned epithelial monolayers. We successfully constructed gastric, small intestinal, caecal, and colonic epithelial models that faithfully reproduced tissue-respective geometries and exhibited high physiological relevance, evidenced by the regionalization of stem cells and transcriptional resemblance to real epithelia. The gained observability allowed single-cell tracking over time and studies into the motility of cells in immersion and air-liquid interface cultures. Additionally, this model recapitulated Trichuris muris infection of the caecum epithelium, allowing the first live imaging of syncytial tunnel formation. Overall, this platform offers accessible organoids with improved observability, making it a valuable tool for investigating the dynamics of GI epithelial cells and their interactions with pathogens.

Project description:The goal of this study was to evaluate the transcriptional response of 4 human duodenal enteroid lines on monolayers to norovirus infections (GII.4). Enteroids were plated as monolayers in Intesticult (Stem Cell Technologies) proliferation medium. After 1 day of cell growth as a monolayer, the proliferation medium was changed with differentiation medium for 5 days. Five-day-differentiated monolayers were washed and were either mock-infected or inoculated with human norovirus supplemented with 500 μM glycochenodeoxycholic acid (GCDCA), for 1 to 2 h at 37°C. Total RNA was extracted using the Qiagen RNeasy kit and paired-end Illumina sequencing was performed.

Project description:Intestinal organoids have the potential to replicate cellular diversity and functional biology of the human gut, suggesting their application in Inflammatory Bowel Disease (IBD) research. Insufficient characterization at the molecular, cellular, and functional level has remained a barrier to their use in drug discovery. We profile intestinal organoids and Transwell-monolayers derived from ileum and colon tissue of control and IBD subjects. Organoids and monolayers respond to optimized differentiation media with consistent expression and maturation patterns, including signatures of epithelial cell types found in the human gut. Both ileum- and colon-derived monolayers show acute sensitivity to cytokines with applicability for modeling epithelial barrier damage.

Project description:We report that repeated rounds of media submergence damage of human colon organoids led to the inability of cells to regrow and respond appropriately to TLR stimulation. We also identified mRNA expression and DNA methylation changes in genes associated with IBD and colon cancer.

Project description:A patient-derived epithelium-only colon rectal organoid, also referred to as a colonoid, was generated from an adenoma (associated with a resection surgery of an invasive moderately differentiated colorectal adenocarcinoma) as part of the development of an on-going organoid biobank at the Michigan Medicine Translational Tissue Modeling Laboratory (TTML, www.UmichTTML.org). The genomic variant signature of this adenoma colonoid was characterized using whole exome sequencing in order to access genomic concordance between the source patient tissue (adenoma and histologically normal tissue 10 cm from lesion) and the in vitro culture, as well as to access genomic stability of the culture over time at 2 and 6.5 months in culture.

Project description:Dose-dependent ileal gene expression was examined following repeated exposure (every 4 days for 28 days) to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). These data were used to examine the effect of repeated TCDD exposure on gene expression in the intestinal epithelium of C57BL/6 male mice.

Project description:Dose-dependent colonic gene expression was examined following repeated exposure (every 4 days for 28 days) to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). These data were used to examine the effect of repeated TCDD exposure on gene expression in the intestinal epithelium of C57BL/6 male mice.

Project description:Dose-dependent jejunal gene expression was examined following repeated exposure (every 4 days for 28 days) to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). These data were used to examine the effect of repeated TCDD exposure on gene expression in the intestinal epithelium of C57BL/6 male mice.