Project description:To increase our knowledge of the effects of Fructo oligosaccharides (FOS) on Salmonella infection in fats, a controlle rat infection study was performed. Two groups of 12 rats were adapted for 14 days to a cellulose diet and one group of 12 rats to a FOS diet. One cellulose-fed group and the FOS-fed group were infected with Salmonella. Two days post infection mRNA was collected from the mucosa of the colon and changes in gene expression were assessed using an Agilent rat whole genome microarray (G4131A Agilent Technologies). Results indicate that Salmonella affects colonic mucosal gene expression, which is further enhanded by dietary FOS. Experiment Overall Design: In the present study, large-scale gene expression analysis was performed to reveal whether Salmonella induced changes of colonic mucosal gene expression in rats. Furthermore, we compared the colonic gene expression changes of infected rats fed a diet supplemented with Fructo oligosaccharides (FOS) or cellulose as control. Two groups of Wistar rats (n=12) were adapted for 14 days to a cellulose diet and one group (n=12) to a FOS diet. One cellulose-fed group and the FOS-fed group were infected with Salmonella. RNA was isolated from colonic mucosal scrapings. mRNA samples of 12 rats per group were pooled. Each group-sample was hybridised in duplicate on Agilent rat whole genome microarrays containing 44290 60-mer spots.

Project description:To increase our knowledge of the effects of Fructo oligosaccharides (FOS) on the intestinal barrier function in rats, a controlled rat infection study was performed. Two groups of rats (n=12 per group) were adapted to a diet with or without FOS. mRNA was collected from the mucosa of the cecum and changes in gene expression were assessed using an agilent rat whole genome microarray (G4131A Agilent Technologies). Results indicate that dietary FOS influences immune response and wound healing mechanisms, which will most likely affect the intestinal barrier. Keywords: Dietary treatment, cecum mucosa, Rat

Project description:To increase our knowledge of the effects of Fructo oligosaccharides (FOS) on the intestinal barrier function in rats, a controlled rat infection study was performed. Two groups of rats were adapted to a diet with or without FOS. mRNA was collected from the mucosa of the colon and changes in gene expression were assessed using an agilent rat whole genome microarray (G4131A Agilent Technologies). Results indicate that dietary FOS influences energy metabolism, which will most likely play a role in the effects of FOS on the intestinal barrier. Keywords: Dietary treatment, colon mucosa, Rat

Project description:To increase our knowledge of the effects of Fructo oligosaccharides (FOS) on the intestinal barrier function in rats, a controlled rat infection study was performed. Two groups of rats (n=12 per group) were adapted to a diet with or without FOS. mRNA was collected from the mucosa of the cecum and changes in gene expression were assessed using an agilent rat whole genome microarray (G4131A Agilent Technologies). Results indicate that dietary FOS influences immune response and wound healing mechanisms, which will most likely affect the intestinal barrier. Experiment Overall Design: In the present study, large-scale gene expression analysis was performed to reveal mechanistic details of FOS induced gene expression in vivo in the cecum mucosa. Wistar rats were adapted to diets with (n=12) or without FOS (n=12) for 14 days. RNA was isolated from cecum mucosal scrapings, two RNA samples from the control group were ecluded based on poor quality of RNA. Agilent rat whole genome microarray containing 44290 60-mer spots, were used to study FOS induced gene expression changes in order to better understand the FOS induced effects on the intestinal barrier of rats.

Project description:To increase our knowledge of the effects of Fructo oligosaccharides (FOS) on the intestinal barrier function in rats, a controlled rat infection study was performed. Two groups of rats were adapted to a diet with or without FOS. mRNA was collected from the mucosa of the colon and changes in gene expression were assessed using an agilent rat whole genome microarray (G4131A Agilent Technologies). Results indicate that dietary FOS influences energy metabolism, which will most likely play a role in the effects of FOS on the intestinal barrier. Experiment Overall Design: In the present study, large-scale gene expression analysis was performed to reveal mechanistic details of FOS induced gene expression in vivo in the colon mucosa. Wistar rats were adapted to diets with or without FOS for 14 days. RNA was isolated from colonic mucosal scrapings. Agilent rat whole genome microarray containing 44290 60-mer spots, were used to study FOS induced gene expression changes in order to better understand the FOS induced effects on the intestinal barrier of rats.

Project description:Salmonella enteritidis is suggested to translocate in the small intestine. Previously we identified that prebiotics, fermented in the colon, increased Salmonella translocation in rats, suggesting involvement of the colon in translocation. Effects of Salmonella on colonic gene expression in vivo are largely unknown. The aim of this study was to characterize time dependent Salmonella induced changes of colonic mucosal gene expression in rats using whole genome microarrays. Rats were orally infected with Salmonella enteritidis to mimic a foodbore infection and colonic gene expression was determined at day 1, 3 and 6 post-infection (n=8 per timepoint). Agilent rat whole genome microarray (G4131A Agilent Technologies) were used. Results indicate that colon is clearly a target tissue for Salmonella considering the abundant changes in mucosal gene expression observed. Keywords: Time point infection study, colon mucosa, Rat

Project description:Salmonella enteritidis is suggested to translocate in the small intestine. Previously we identified that prebiotics, fermented in the colon, increased Salmonella translocation in rats, suggesting involvement of the colon in translocation. Effects of Salmonella on colonic gene expression in vivo are largely unknown. The aim of this study was to characterize time dependent Salmonella induced changes of colonic mucosal gene expression in rats using whole genome microarrays. Rats were orally infected with Salmonella enteritidis to mimic a foodbore infection and colonic gene expression was determined at day 1, 3 and 6 post-infection (n=8 per timepoint). Agilent rat whole genome microarray (G4131A Agilent Technologies) were used. Results indicate that colon is clearly a target tissue for Salmonella considering the abundant changes in mucosal gene expression observed. Experiment Overall Design: In the present study, large-scale gene expression analysis was performed to reveal whether Salmonella induced changes of colonic mucosal gene expression in rats. Wistar rats were infected with Salmonella enteritidis. Non-infected control rats were sham-treated. Rats were sacrificed on day 1, 3 or 6 post infection or sham-treatment (n=8 rats per treatment and per time point). RNA was isolated from colonic mucosal scrapings. mRNA samples of 8 rats per group were pooled. Each pooled group-sample was hybridised in duplicate on Agilent rat whole genome microarrays containing 44290 60-mer spots. From the 12 arrays one duplicate array (Colon mucosa non-infected day6) did not pass quality control and was left out from further analysis.

Project description:Purpose: To understand the role of SUMOylation of c-Fos in the differential regulation of target genes and altered cellular pathways upon STm infection. To address this, we performed a RNA-seq experiment with stable over expressing WT-FOS or SUMO-def-FOS in f10 c-FOS-Knock out MEFs upon STm infection. Methods: Three biological replicates of c-FOS-KO-WT-FOS, c-FOS-KO-WT-FOS with salmonella infection, c-FOS-KO-SUMO-def-FOS and c-FOS-KO-SUMO-def-FOS with salmonella infection, cells were collected and total RNA was extracted according to kit's protocol. The total RNA was used to generate a cDNA library using Quantseq 3' mRNA kit. Results: Transcriptional profiling revealed that genes involved in immune response, proliferation, metastasis etc. are differentially regulated in salmonella infected c-FOS-KO-SUMO-def-FOS MEFs compare to salmonella infected c-FOS-KO-WT-FOS MEFs. Conclusions: Our study revealed the extensive transcriptomics analysis from c-FOS-KO-WT-FOS and c-FOS-KO-SUMO-def-FOS MEFs upon salmonella infection. We found that SUMOylation of c-Fos provides selectivity that causes differential regulation of target genes which are involved in immune response, proliferation etc. pathways of host. Together, our findings illuminate an important regulatory role played by SUMOylated c-Fos upon STm infection.

Project description:BACKGROUND & AIMS: The immune system comprises an innate and an adaptive immune response to combat pathogenic agents. The human enteropathogen Salmonella enterica serovar Typhimurium invades the intestinal mucosa and triggers an early innate pro-inflammatory host gene response, which results in diarrheal disease. Several host factors are involved in the acute early response to Salmonella infection. Transcription factors and transcription co-regulators have an especially important function, because they are required for the expression and synthesis of pro-inflammatory cytokines, chemokines and adhesion molecules. A central transcription factor involved in inflammation is NF-κB, which requires the nuclear protein PARP1 as co-factor for the expression of some of its target genes. Here, we investigated the role of PARP1 during Salmonella infection using a mouse model for Salmonella-induced colitis. METHODS: To study enterocolitis by Salmonella Typhimurium, an established mouse model system, which relies on streptomycin-pretreatment prior to Salmonella infection, was employed. Histopathologic signs of inflammation and cecum colonization at various time-points after infection of wild type and PARP1 knockout mice were analyzed. PARP1 expression in the gut mucosa was studied by quantitative RT-PCR, Western blot and immunofluorescence. Gene expression profiles of infected and control infected mice in the wild type or PARP1 knockout background were obtained by whole mouse genome arrays and confirmed by quantitative RT-PCR. 2 genotypes (wildtype, PARP1 knockout), 2 treatments (Salmonella SB300 infection, Salmonella SB161 control infection), 2 time-points (6h, 10h). 2-3 replicates/condition.

Project description:Time dependent effect of Salmonella infection on host gene expression in vivo in the ileum mucosa and Peyer’s patches.