Project description:Epigenomics of rat born to dams fed a diet deficient in methyl group donors (MDD)

Project description:Transcriptomics of rat born to dams fed a diet deficient in methyl group donors

Project description:It is clearly established that the maternal diet during pregnancy can induce physiological and metabolic adaptations in the developing fetus which determine its susceptibility later in life to develop diabetes, obesity... The molecular and genomic mechanisms underlying the programming of the metabolic syndrome remain largely unknown but may involve resetting of epigenetic marks and fetal gene expression. We analyzed the profile of the liver methylome in 21-day-old rats born to mothers fed with a standard diet or a diet lacking methyl donor nutrients (Vitamin B12 and folates) during gestation and lactation. Modifications of DNA methylation were found in the promoter regions of 1,032 genes out of 14,981 genes. Bioinformatics analysis revealed that these genes are mainly involved in glucose and lipid metabolism, nervous system, coagulation, endoplasmic reticulum (ER) stress and mitochondrial function. MDD induced modifications of methylation in rat liver were measured in 21-day-old rats born to dams fed with standard food or food deficient in methyl group donor. Six independent experiments were performed (3 controls versus 3 MDD).

Project description:The study objective was to determine differentially expressed mRNA transcripts in cardiac tissues from E18.5 fetal mice e born to obese dams fed a high fat/high sugar diet and control dams fed normal diet.

Project description:It is clearly established that the maternal diet during pregnancy can induce physiological and metabolic adaptations in the developing fetus which determine its susceptibility later in life to develop diabetes, obesity... The molecular and genomic mechanisms underlying the programming of the metabolic syndrome remain largely unknown but may involve resetting of epigenetic marks and fetal gene expression. We analyzed the profile of the liver transcriptome in 21-day-old rats born to mothers fed with a standard diet or a diet lacking methyl donor nutrients (Vitamin B12 and folates) during gestation and lactation. From a total of 44,000 probes for 26,456 genes, we found two gene clusters whose expression levels had statistically significant differences between control and deficient rats: 3,269 up-regulated and 2,841 down-regulated genes. Bioinformatics analysis revealed that these genes are mainly involved in glucose and lipid metabolism, nervous system, coagulation, endoplasmic reticulum (ER) stress and mitochondrial function. Modifications of gene expression in rat liver were measured in 21-day-old rats born to mothers fed with a standard diet or a diet lacking methyl donor nutrients (Vitamin B12 and folates). Eight independent experiments were performed (4 Controls versus 4 Methyl Donor Deficiency - MDD).

Project description:The aim of this study was to evaluate the potential effects of methyl donor supplementation of pregnant animals in the presence or absence of a concomitant lactation on the methylome of the offspring. Twenty Holstein cows, 10 nulliparous (not lactating while pregnant) and 10 multiparous (lactating while pregnant) were blocked by parity and randomly assigned to an i.m. weekly injections of a placebo (CTRL) or a solution containing methyl donors (MET). After calving, 5 calves randomly selected from each treatment (two born to primiparous and three to multiparous dams) were blood-sampled to determine their full methylome. There were more than 2,000 CpG differentially methylated between calves born to CTRL and those born to MET, and also between calves born to multiparous and nulliparous dams. Most of the differences affected genes involved in immune function, cell growth regulation and differentiation, kinase activity, and ion channeling. We conclude that the coexistence of pregnancy and lactation affects the methylome of the offspring, and that supplementation of methyl donors early in gestation has also consequences on the methylome.

Project description:Expression profiles of normal colons in ApcMin mice that were fed methyl deficient diet for 11 weeks vs controls Expression profiles of normal colons in ApcMin mice that were fed methyl deficient diet for 11 weeks vs controls fed methyl donor sufficient diets

Project description:A comparison of the liver transcriptomes of 1 day old rats that are born to mothers fed with three different diets during gestation. The first animal group was fed with a normal diet (control); second group received much less protein than normal and slightly more carbs (low protein); third group diet was same as low protein but with an extra dosage of folic acid (lowp.+f). All diets were matched for energy. Total RNA was extracted from rat livers of 4 offsprings per animal group (4 biological replicates x group)

Project description:We established a new minimal congenic rat strain containing only a single gene, Zbtb16, from a metabolic syndrome model, the polydactylous rat (PD/Cub) strain, within the spontaneously hypertensive rat (SHR) strain genomic background. 16-week-old SHR and SHR-Zbtb16 rat dams were fed either standard diet during pregnancy and 4 weeks of lactation (control groups) or a high-sucrose diet (HSD, 70% calories as sucrose) during the same period. We have compared the transcriptome profile (GeneChip Rat Gene 2.1 ST Array Strip) in liver, brown and white adipose tissue in adult male offspring of SHR and SHR-Zbtb16 rat dams.

Project description:Background: Epidemiological studies suggest an association between maternal obesity and adverse neurodevelopmental outcomes in offspring. Objective: To compare the global proteomic portrait in the cerebral cortex between mice born to mothers on a high-fat or control diet who themselves were fed a high-fat or control diet. Methods: Male mice born to dams fed a control (C) or high fat (H) diet four weeks before conception and during gestation and lactation were assigned to either C or H diet at weaning. Mice (n=24) were sacrificed at 19-weeks and their cerebral cortices were pooled into 8 samples and analysed using an iTRAQ based 2D LC-MS methodology. Results: A total of 6,695 proteins were identified and fully quantified (q<0.01). Approximately 10% of these proteins demonstrated a minimum of one Standard Deviation of regulation across all biological replicates in at least one of the experimental groups (CH, HC, HH) relative to the control (CC). Principal component analysis and hierarchical clustering analysis showed that mice clustered based on the diet of the mother and not their current diet. In silico bioinformatics analysis revealed that maternal high-fat diet was significantly associated with response to hypoxia/oxidative stress and apoptosis in the cerebral cortex of the adult offspring. Conclusion: Maternal high-fat diet was associated with distinct endophenotypic changes of the adult mouse cerebral cortex independent of the diet of the offspring. The identified modulated proteins could represent novel therapeutic targets for the prevention of neuropathological features resulting from maternal obesity.