Project description:In placental mammals, adaptation to extra-uterine life requires complex metabolic adjustments linked to the abrupt transition from the transplacental transfer of glucose toward the use of fat originating from the motherM-bM-^@M-^Ys milk as a major energy source. The study of a novel knock-out mouse model led us to identify the biological roles of the miR-379/miR-410 cluster at the imprinted Dlk1-Dio3 region during this metabolic transition. The miR-379/miR-410 cluster is the largest mammalian-specific miRNA cluster composed of 39 pre-miRNA and expressed from the maternally-inherited allele. We unexpectedly found that ~ 35% of heterozygous neonates with a maternal - but not paternal - deletion of the entire 40kb-long miRNA cluster die shortly after birth due to defects in the maintenance of energy homeostasis, as evidenced by impaired hepatic glycogenolysis, gluconeogenesis and ketogenesis. This maladaptive metabolic response is accompanied by profound changes in the neonatal hepatic gene expression program, notably a decrease in the activation of a large set of metabolic genes linked to lipid metabolism. Our study unveils essential roles for the miR-379/miR-410 cluster at the transition from fetal to postnatal life, revealing new layers of RNA-mediated gene regulation at the Dlk1-Dio3 domain that impose parent-of-origin effects on postnatal metabolic functions. Liver gene expression at P1 was measured in neonates with a maternally-inherited deletion of the miR-379/miR-410 cluster (KO) and compared to that of wild-type littermates (n=5). KO_normoglycemic and KO_hypoglycemic individuals correspond to mutant pups wild mild hypoglycemia (n=3) and with severe hypoglycemia (n =7), respectively.

Project description:In placental mammals, adaptation to extra-uterine life requires complex metabolic adjustments linked to the abrupt transition from the transplacental transfer of glucose toward the use of fat originating from the motherM-bM-^@M-^Ys milk as a major energy source. The study of a novel knock-out mouse model led us to identify the biological roles of the miR-379/miR-410 cluster at the imprinted Dlk1-Dio3 region during this metabolic transition. The miR-379/miR-410 cluster is the largest mammalian-specific miRNA cluster composed of 39 pre-miRNA and expressed from the maternally-inherited allele. We unexpectedly found that ~ 35% of heterozygous neonates with a maternal - but not paternal - deletion of the entire 40kb-long miRNA cluster die shortly after birth due to defects in the maintenance of energy homeostasis, as evidenced by impaired hepatic glycogenolysis, gluconeogenesis and ketogenesis. This maladaptive metabolic response is accompanied by profound changes in the neonatal hepatic gene expression program, notably a decrease in the activation of a large set of metabolic genes linked to lipid metabolism. Our study unveils essential roles for the miR-379/miR-410 cluster at the transition from fetal to postnatal life, revealing new layers of RNA-mediated gene regulation at the Dlk1-Dio3 domain that impose parent-of-origin effects on postnatal metabolic functions. Liver gene expression was measured in mice with a maternally-inherited deletion of the miR-379/miR-410 cluster (KO) and in wild-type littermates (WT) at embryonic day E19.5 (n=3 per genotype) and on the day of birth (P0, n=4 WT and 5 KO).

Project description:The beneficial effects of dietary long-chain (LC) n-3 polyunsaturated fatty acids (PUFA) in the prevention and/or treatment of some metabolic disorders result largely from their capacity to regulate the transcription level of many genes involved in metabolic and physiological homeostasis, especially in the liver. In this respect, they are known to bind and activate the Peroxisome Proliferator-Activated Receptor alpha (PPARalpha). The precursor of LC-PUFA, a-linoleic acid (ALA, C18:3 n-3) share some beneficial metabolic effects with its LC derivatives, however its role in gene regulation is poorly documented. Here, we analysed the hepatic transcriptome of mice fed for 5 weeks diets rich in either saturated FA from palm oil (PALM group) or ALA from linseed oil (LIN group). This modification of dietary fatty acid composition in a context of a high fat diet had a subtle but significant effect on the hepatic transcriptome. We identified mainly a group of genes that were upregulated in the LIN vs the PALM group and that include several well-known PPARalpha target genes involved in lipid and xenobiotic metabolism. Liver gene expression was measured in male C57BL/6J mice fed during 5 weeks a high fat diet (51% energy from fat) containing palm oil, rich in saturated fatty acids (n=10) or linseed oil, rich in 18:3 n-3 (n=8)

Project description:Estrogen-based treatments have numerous extra-reproductive effects. On the one hand, they have protective metabolic actions against abdominal fat accumulation, type 2 diabetes, liver steatosis,… But, on the other hand, the oral route of administration, presumably due to a hepatic impact on liver-derived coagulation factors, appears to increase risks of venous thrombosis and pulmonary embolism. The characterization of liver genes expression regulations by these hormones thereby appears of utmost interest, but the estrogen-sensitive transcriptome of liver and ER cistrome was so far explored under chronic hormonal treatment. To explore the early steps of these mechanisms, we determined here the short-term changes in liver transcriptional responses to acute E2 administration, and aimed to characterize the mechanisms allowing these programs to be engaged. Collectively, through the comparison of mice expressing or not ER, our data demonstrate that acute administration of E2 provokes genes expression variations which fit with a crucial role of ER in the prevention of liver steatosis in mice fed with a high fat diet by E2. They also evidenced higher proportion of ER binding sites (BSs) located at the direct vicinity (distance <3kb) of regulated genes than what is determined in human cancer cell models. Besides this specific aspect of ER cistrome in vivo, we unexpectedly found that 40 % of the BSs of the pioneer factor Foxa2 were dependent upon the expression of ER that indirectly influences the distribution of the nucleosomes harbouring a dimethylated H3K4 around these Foxa2 sites. Analysis of estrogen-sensitive and estrogen receptor (ER)-dependent transcriptomes in livers from wild-type or ERKO mice.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:Bisphenol A (BPA) is used in the plastic industry as the monomer of polycarbonates and epoxy resins. Heat and changes in pH conditions lead to its leakage from the plastics in which it is incorporated. This largely contributes to the widespread exposure of the general population to this environmental contaminant. The exposure levels in humans are likely below the Tolerable Daily Intake (TDI: 50 µg/kg/day) and well below the No Observable Adverse Effect Level (NOAEL: 5000 µg/kg/day) defined from reprotoxicity studies. However, several studies suggest that BPA could induce deleterious effects specifically at low, environmentally relevant, doses. BPA has been described as an endocrine disruptor with estrogenic activity. Recently, it has been shown that BPA exposure has an impact on metabolic functions including stimulation of adipogenesis and of insulin production by the pancreas. Here, we investigated the effects of oral exposure to low (TDI) and high (NOAEL) doses of BPA on mouse liver transcriptome. Liver gene expression was measured from CD-1 mice (6 mice/group) exposed for 28 days to bisphenol A at doses 0 (controls), 50 (TDI or low dose) or 5000 µg/kg/day (NOAEL or high dose) via food contamination.

Project description:To further study gene expression regulated by 17b-estradiol in uteri, we have employed whole gene microarray profiling to identify genes specifically regulated by the Estrogen receptor ERα localized either at the plasma membrane or in the nucleus. Two mice models have been used, the mice named ERa-AF2° (named AF2_KO and on C57BL6/J background) in which 7 aminoacids have been deleted in the AF2 domain and the mice C451A-ERa (named MISS_KO and on C57BL6/N background) mutated for the C451 into Ala on ERa. Control littermates were used for each mutant mice respectively name AF2_WT or MISS_WT. 17b-estradiol induced gene expression in uteri from ovariectomized mice was measured after 6 hours exposure to 0 (PLB) and 8µg/kg of 17b-estradiol (E2) injected subcutaneously in castor oil.

Project description:LXR is a transcription factor. Two isoforms exist in mice (alpha and beta). They are both expressed in the liver. We examined the role of LXR by obtaining gene expression profiles from the livers of wild-type and LXR-/- mice from the same genetic background. Liver gene expression was measured from male mice (5 mice/group) of genotypes wild-type and LXR-/- on a mixed Sv129/C57Bl6J background (Repa et al. , 2000, Science, 289(5484):1524-9; Cummins et al., 2006, J Clin Invest,116(7):1902-12) fed for 7 weeks a normal diet (ND) or a Western diet (WD).

Project description:Deoxynivalenol (DON) is a frequent mycotoxin in grains, produced by Fusarium fungi, which demonstre multiple side effects such as modulation of immune responses, reduced feed intake and weight gain or impairment of the intestinal barrier function. Among animal species, pigs are the best model for humans and are very sensitive to DON. In wheat, DON can be conjugated to glucose to form DON-3-β-D-glucoside (D3G). Some bacteria isolated from digestive tracts or soil, are also able to de-epoxydize or epimerize DON to metabolites such as deepoxy-deoxynivalenol (DOM-1) or 3-epi-deoxynivalenol (epi-DON). The toxicity of these DON metabolites is poorly documented. By the way of ingestion, the intestine is the first organ exposed to these molecules and so constitute a relevant model. The aim of this study was to compare the intestinal toxicity of three DON metabolites (D3G, DOM-1 and epi-DON) with the one of DON. Intestinal explants from 6 pigs were treated with 10mM DON, D3G, DOM-1 or epi-DON for 4 hours and transcriptomic analysis was performed using an “Agilent Porcinet 60K”. Jejunal explants from 4 piglets aged of 5 weeks were sampled and exposed in vitro to differents molecules (DON, D3G, DOM-1 & 3-epi-DON) at 10µM during 4h. Then RNA was extracted.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series