Project description:We revealed a close positive relationship between Ptrf transcription and adipose mass in mice, and single-nucleus transcriptomics indicated the involment of impariment of adipogenic differentiation, adipocyte metabolism, transportation of multiple nutrients and altered regulatory network in Ptrf knockout-induced decrease of fat mass.

Project description:Modification of fat mass through targeting distal enhancer of Ptrf

Project description:An observational study of the relationship between fat free mass and toxicity of cytostatics in cancer patients, at the department of Clinical Oncology at Zealand University Hospital, Roskilde, Denmark. Fat free mass will be measured by bio impedance spectroscopy and data on toxicity will be obtained from medical records and interviews/questionnaires with the patients.

Project description:Epidemiological data suggest that lean individuals resist exposure to the obesogenic environment better than those with obesity. To test this, we analyzed the relationship between overfeeding-induced weight and fat mass gains with baseline body mass index (BMI) and body fat percentage. In this controlled intervention study, 34 young men (BMI: 25.5±2.4 kg/m2, body fat [DXA]: 19.3±5.1%) consumed for 8 weeks 40% more energy than needed at weight maintenance. The energy costs of weight and fat mass gain were calculated as the 8-week excess energy consumed (EEC) divided by weight or fat mass gain. Energy expenditure (baseline and after overfeeding) was determined using a metabolic chamber and doubly labeled water. Transcriptomic analysis was conducted from abdominal subcutaneous adipose tissue samples

Project description:We studied the effect of dietary fat type, varying in polyunsaturated/saturated fatty acid ratio's (P/S) on development of metabolic syndrome. C57Bl/6J mice were fed purified high-fat diets (45E% fat) containing palm oil (HF-PO; P/S 0.4), olive oil (HF-OO; P/S 1.1) or safflower oil (HF-SO; P/S 7.8) for 8 weeks. A low-fat palm oil diet (LF-PO; 10E% fat) was used as a reference. Additionally, we analyzed diet-induced changes in gut microbiota composition and mucosal gene expression. The HF-PO diet induced a higher body weight gain and liver triglyceride content compared to the HF-OO, HF-SO or LF-PO diet. In the intestine, the HF-PO diet reduced microbial diversity and increased the Firmicutes/Bacteroidetes ratio. Although this fits a typical obesity profile, our data clearly indicate that an overflow of the HF-PO diet to the distal intestine, rather than obesity itself, is the main trigger for these gut microbiota changes. A HF-PO diet-induced elevation of lipid metabolism-related genes in the distal small intestine confirmed the overflow of palm oil to the distal intestine. Some of these lipid metabolism-related genes were previously already associated with the metabolic syndrome. In conclusion, our data indicate that saturated fat (HF-PO) has a more stimulatory effect on weight gain and hepatic lipid accumulation than unsaturated fat (HF-OO and HF-SO). The overflow of fat to the distal intestine on the HF-PO diet induced changes in gut microbiota composition and mucosal gene expression. We speculate that both are directly or indirectly contributive to the saturated fat-induced development of obesity and hepatic steatosis. Keywords: Diet intervention study Nine-week-old C57Bl/6J mice were fed a low-fat diet (LF-PO) and three different types of high-fat diet, based on palm oil (HF-PO; P/S1.0), olive oil (HF-OO; P/S4.6) and safflower oil (HF-SO; P/S10.1) for 8 weeks. Body weight was recorded weekly and after 7 weeks of diet intervention an oral glucose tolerance test was performed. After 2 weeks of diet intervention, 6 mice per high-fat diet group were anaesthetized with a mixture of isofluorane (1.5%), nitrous oxide (70%) and oxygen (30%) and the small intestines were excised. Adhering fat and pancreatic tissue were carefully removed. The small intestines were divided in three equal parts along the proximal to distal axis (SI 1, SI 2 and SI 3) and microarray analysis was performed on mucosal scrapings.

Project description:We studied the effect of dietary fat type, varying in polyunsaturated/saturated fatty acid ratio's (P/S) on development of metabolic syndrome. C57Bl/6J mice were fed purified high-fat diets (45E% fat) containing palm oil (HF-PO; P/S 0.4), olive oil (HF-OO; P/S 1.1) or safflower oil (HF-SO; P/S 7.8) for 8 weeks. A low-fat palm oil diet (LF-PO; 10E% fat) was used as a reference. Additionally, we analyzed diet-induced changes in gut microbiota composition and mucosal gene expression. The HF-PO diet induced a higher body weight gain and liver triglyceride content compared to the HF-OO, HF-SO or LF-PO diet. In the intestine, the HF-PO diet reduced microbial diversity and increased the Firmicutes/Bacteroidetes ratio. Although this fits a typical obesity profile, our data clearly indicate that an overflow of the HF-PO diet to the distal intestine, rather than obesity itself, is the main trigger for these gut microbiota changes. A HF-PO diet-induced elevation of lipid metabolism-related genes in the distal small intestine confirmed the overflow of palm oil to the distal intestine. Some of these lipid metabolism-related genes were previously already associated with the metabolic syndrome. In conclusion, our data indicate that saturated fat (HF-PO) has a more stimulatory effect on weight gain and hepatic lipid accumulation than unsaturated fat (HF-OO and HF-SO). The overflow of fat to the distal intestine on the HF-PO diet induced changes in gut microbiota composition and mucosal gene expression. We speculate that both are directly or indirectly contributive to the saturated fat-induced development of obesity and hepatic steatosis. Keywords: Diet intervention study

Project description:Baseline body fat percentage is related with weight and fat mass gain from high-fat overfeeding over a period of 8 weeks

Project description:Saturated Fat Impairs Circadian Transcriptomics through Histone Modification of Enhancers

Project description:Saturated Fat Impairs Circadian Transcriptomics through Histone Modification of Enhancers

Project description:Adipogenin (Adig) is an adipocyte-enriched transmembrane protein. Its expression is induced during adipogenesis in rodent cells and a recent genome wide association study associated BMI-adjusted leptin levels with the ADIG locus. In order to begin to understand the biological function of adipogenin, we studied adipogenesis in Adig deficient cultured adipocytes and phenotyped Adig null (Adig-/-) mice. Data from Adig deficient cells showed that Adig is required for adipogenesis. In vivo, Adig-/- mice were leaner than wildtype mice when fed a high-fat diet and when crossed with Ob/Ob hyperphagic mice. In addition to the impact on adipogenesis and fat mass accrual, Adig deficiency also reduced fat mass adjusted plasma leptin levels and impaired leptin secretion from adipose explants, suggesting an additional direct impact on the regulation of leptin secretion.