Project description:Histone acetyltransferases KAT2A and KAT2B are paralogs highly expressed in the intestinal epithelium, but their functions are not well understood. In this study, double knockout of murine Kat2 genes in the intestinal epithelium was lethal, resulting in diminished H3K9ac
expression, loss of stem cells, and robust activation of interferon signaling. Use of pharmacological agents and sterile organoid cultures indicated a cell-intrinsic double-stranded RNA trigger for interferon signaling. Acetyl-proteomics and dsRIP-seq were employed to interrogate the mechanism behind this response, which identified self-derived, mitochondria- encoded double-stranded RNA as the source of intrinsic interferon signaling. KAT2A and KAT2B therefore play an essential role in regulating mitochondrial functions as well as maintaining intestinal health.
Project description:Intestinal tumours from genetically engeenierd mouse modesl (GEMMs), of various gentopyes, were isolated at endpoint and RNA was isolated. In an additional experiment, epithelial tumour organoids were isolated at end point and grown in vitro. These organoids were harvested 72 hours after seeding and RNA was isolated.
Project description:This study uses whole-genome bisulfite sequencing to characterize the methylomes of the AOM/DSS mouse model at single-base resolution. In this model, mice are treated with dextran sodium sulfate (DSS) to induce colitis. When this treatment is preceded by injections of the weak carcinogen azoxymethane (AOM) the mice develop intestinal tumors. Our results identify hypermethylated DMVs as a prominent feature of the colitis methylome that is conserved in intestinal adenocarcinomas. Further analyses reveal a subset of DMV-associated genes, expressed in normal intestinal epithelial cells, that were silenced and hypermethylated in inflamed and cancerous intestinal cells. Together, these findings provide strong support for the hypothesis that inflammatory signals induce a higher risk for cancer development by manipulating the epigenome. . Whole genome methylation analysis of M. musculus. Three conditions were sequenced analyzed, the first is an untreated control, the second corresponds to inflammation, the third to cancer induced by inflammation. All three conditions were analyzed using three replicates.
Project description:We report that adhesion of microbes to intestinal epithelial cells is a critical cue for Th17 induction. SFB colonized in the intestine of mice can adhere to mouse small intestinal epithelial cells and induce intestinal Th17 cells. However, SFB colonized in rats cannot adhere to mouse intestinal epithelial cells and induce Th17 cells. Likewise, Citrobacter rodentium (WT) can adhere to mouse colonic epithelial cells and induce Th17 cells, but non-adherent mutant of C. rodentium (Δeae) cannot induce Th17 cells. To examine the influence of adherent bacteria on intestinal epithelial cells, we performed RNA seq. Germ free mice were orally inoculated with M-SFB or R-SFB and total RNA was isolated from small intestinal epithelial cells 1 week after inoculation. Alternatively, germ free mice were orally inoculated with C. rodentium WT or eae mutant and total RNA was isolated from colonic epithelial cells 5 days after inoculation. The gene expression of small intestinal epithelial cells isolated from small intestine of germ free mice (2 mice), mice monocolonized with M-SFB (2 mice) or R-SFB (3 mice), and colon of germ free mice (3 mice), mice monocolonized C. rodentium WT (3 mice) or eae mutant (3 mice).