Project description:The popularity of high fat foods in modern society has been associated with epidemic of various metabolic diseases characterized by insulin resistance, the pathology of which involves complex interactions between multiple tissues such as liver, skeletal muscle and white adipose tissue (WAT). To uncover the mechanism by which excessive fat impairs insulin sensitivity, we conducted a multi- tissue study by using TMT-based quantitative proteomics. 3-week-old ICR mice were fed with high fat diet (HFD) for 19 weeks to induce insulin resistance. Liver, skeletal muscle and epididymal fat were collected for proteomics screening. Additionally, PRM was used for validating adipose differential proteins. By comparing tissue-specific protein profiles of HFD mice, multi-tissue regulation of glucose and lipid homeostasis and corresponding underlying mechanisms was systematically investigated and characterized.

Project description:Since the first human conceived through in vitro fertilisation in 1978, over 8 million babies have been born by assisted reproductive technologies (ART). Although most ART babies and children seem healthy, in recent years, several human and animal model studies have evidenced a potential impact of ART on long-term development. However, the long-term follow-up data in this field is still limited. Till now, studies are mainly focused on techniques such as in vitro fertilisation or in vitro culture, being the information from gametes/embryos cryopreservation field practically missing. Herein, we have developed an animal model to determine whether vitrified-thawed embryo transfer procedure has long-term consequences over the offspring. The birth weight, growth performance and adult body weight of the rabbits derived from vitrified-thawed embryos was compared with that of the naturally-conceived animals. In adulthood, the liver, heart, kidneys, spleen, lungs, gonads and adrenal glands of the males were weighed and compared. Moreover, some haematological and biochemical parameters were assessed on peripheral blood. Besides, some liver samples were obtained to perform a comparative proteomic study. The embryo vitrification-transfer process modified the birth weight and the growth pattern of the offspring, reducing the growth performance in a sex-specific manner. In adulthood, animals derived from vitrified embryos showed a significantly lower body, liver and heart weight. Molecular analyses revealed that vitrified-thawed embryo transfer procedure triggers concordant reprogramming of the liver proteome. The most relevant metabolic alteration denoted by the protein profile was that related to the oxidative phosphorylation, suggesting an impaired oxidative metabolism in the mitochondria. Furthermore, hints of dysregulation in the zinc and lipid metabolism were identified. These results evidence long-term consequences in the offspring derived from cryopreserved-transferred embryos and represented an evident example of the phenotypic plasticity exhibited by the mammalian embryo.

Project description:Mice were fed for 6 months with a normal chow (NC) or a high fat diet (HFD). After 6 months of diet, high fat fed mice with Low, Medium and High body weight, but with similar glucose intolerance, were selected. These selected mice as well as NC mice were then treated with Rimonabant or Vehicle for 1 month. After treatment, mice were sacrificed and visceral and subcutaneous adipose tissues were collected and immediately frozen in liquid nitrogen. Total RNA from each sample was further extracted, purified, quality-controled before and after amplification, Cy5-labeled and co-hybridized with a Cy3-labeled mouse Universal Reference total RNA on the mouse 17K microarray. Keywords: diet response, pharmacological response Each individual RNA sample was hybridized with a mouse Universal Reference Total RNA

Project description:Genome-wide DNA methylation profiling of young men born with low birth weight following a control and high-fat overfeeding diet using Illumina's Infinium 27k Human DNA methylation Beadchip v. 1.2. DNA methylation profiles were obtained for 27,578 CpG sites in human skeletal muscle. Randomized cross-over desgin, where all subjects receieved both treatments (control and high-fat overfeeding diet). Biopsies were obtained from 17 different individuals amounting to 16 samples following the control diet and 15 samples following the high-fat overfeeding diet (paired n=14). Bisulphite converted DNA from the 31 samples were hybridised to the Illumina Infinium 27k Human Methylation Beadchip.

Project description:Since the first human conceived through in vitro fertilisation in 1978, over 8 million babies have been born by assisted reproductive technologies (ART). Although most ART babies and children seem healthy, in recent years, several human and animal model studies have evidenced a potential impact of ART on long-term development. However, the long-term follow-up data in this field is still limited. Till now, studies are mainly focused on techniques such as in vitro fertilisation or in vitro culture, being the information from gametes/embryos cryopreservation field practically missing. Herein, we have developed an animal model to determine whether vitrified-thawed embryo transfer procedure has long-term consequences over the offspring. The birth weight, growth performance and adult body weight of the rabbits derived from vitrified-thawed embryos was compared with that of the naturally-conceived animals. In adulthood, the liver, heart, kidneys, spleen, lungs, gonads and adrenal glands of the males were weighed and compared. Moreover, some haematological and biochemical parameters were assessed on peripheral blood. Besides, some liver samples were obtained to perform a comparative proteomic study. The embryo vitrification-transfer process modified the birth weight and the growth pattern of the offspring, reducing the growth performance in a sex-specific manner. In adulthood, animals derived from vitrified embryos showed a significantly lower body, liver and heart weight. Molecular analyses revealed that vitrified-thawed embryo transfer procedure triggers concordant reprogramming of the liver proteome. The most relevant metabolic alteration denoted by the protein profile was that related to the oxidative phosphorylation, suggesting an impaired oxidative metabolism in the mitochondria. Furthermore, hints of dysregulation in the zinc and lipid metabolism were identified. These results evidence long-term consequences in the offspring derived from cryopreserved-transferred embryos and represented an evident example of the phenotypic plasticity exhibited by the mammalian embryo.

Project description:High fat diet (HF) rodent models have contributed significantly to the dissection of the pathophysiology of the insulin resistance syndrome, but their phenotype varies distinctly between different studies. Here, we have analyzed gene expression patterns in livers of animals fed with different HF with varying fatty acid compositions. Experiment Overall Design: Male Wistar rats were fed with high fat diets (42 energy%, fat sources: lard, olive oil; coconut fat; cod liver oil). Weight, food intake, whole body insulin tolerance and plasma parameters of glucose and lipid metabolism were measured during a 12 week diet course. Liver histologies and hepatic gene expression profiles using AffymetrixR gene chips were obtained.

Project description:Genome-wide DNA methylation profiling of young men born with low birth weight following a control and high-fat overfeeding diet using Illumina's Infinium 27k Human DNA methylation Beadchip v. 1.2. DNA methylation profiles were obtained for 27,578 CpG sites in human skeletal muscle.

Project description:Mice were fed for 2, 10 or 30 days with a normal chow (NC) or a high fat diet (HFD). At each time point, mice were sacrificed and liver samples were collected and immediately frozen in liquid nitrogen. Total RNA from each sample was further extracted, purified, quality-controled before and after amplification. Cy3-labeled RNA from individual liver sample was co-hybridized with a Cy5-labeled pool of RNA on the mouse 17K microarray. Keywords: diet response, time course, mouse strains For a given time point, each individual RNA sample was hybridized with a pool of RNA from 6 mice

Project description:Breast milk has shown neurodevelopmental advantages compared to infant formula, especially in IUGR infants, which may relate to the fat source. This study aimed to compare neurodevelopmental outcomes in normal birth weight (NBW) and intrauterine growth restricted (IUGR) piglets fed a formula diet with either a vegetable oil (VEG) or bovine milk fat source (MILK). Results showed that total plasma lipids were increased by feeding the MILK diet. 82% and 11% of lipid species were differentially expressed between dietary groups in plasma and hippocampus, respectively, with slight agreement between the plasma and brain lipidome. The MILK diet was most effective in increasing brain lipid accretion, mainly comprising phospholipids. Absolute regional brain weights, grey and white matter volumes, and behavior and motor function scores were lower in IUGR piglets with no effects of diet. Cognitive function and gene expression profiles were similar for dietary and weight groups, and overall only minor interactive effects between diet and weight were observed. In conclusion, dietary fat source influenced the plasma and to a lesser degree the hippocampal lipidome, but was unable to improve on IUGR induced brain structural and functional impairments.

Project description:Dietary flavonoids are supposed to be protective against cardiovascular diseases (CVD). Elevated circulating lipid levels and hepatic lipid accumulation are known risk factors for CVD. We investigated the effects and underlying molecular mechanisms of the flavonoid quercetin on hepatic lipid metabolism in mice with diet induced body weight gain and hepatic lipid accumulation. Adult male mice received a high-fat diet without or with supplementation of 0.33% (w/w) quercetin for 12 weeks. Body weight gain was 29% lower in quercetin-fed mice (p<0.01), while the energy intake was not significantly different. Quercetin supplementation reduced hepatic lipid accumulation with 71% (p<0.05). 1H nuclear magnetic resonance serum lipid profiling revealed that the supplementation lowered serum lipids (p<0.0001). Global gene expression profiling of liver showed that key target genes of the transcription factor Constitutive androstane receptor (Car; official symbol Nr1i3) were regulated, in particular Cytochrome P450 2b (Cyp2b) genes. Quercetin can decrease high-fat diet induced body weight gain, hepatic lipid accumulation and serum lipid levels, which might be explained by the regulation of Cytochrome P450 genes under transcriptional control of CAR, an effect which is likely dependent on dietary background. Liver samples were obtained from 24 C57BL/6J male adult mice. All mice started with a three week adaptation phase, in which they were fed a normal-fat diet. During the intervention of 12 weeks, the mice received a high-fat diet without (HF) or with supplementation of 0.33% (w/w) quercetin (HF-Q). Based on visual inspection, three arrays lacked homogenous hybridization and were therefore excluded.