Project description:Despite a variety of seasoning ingredients in diets, little is known about their cooperative effect on animal metabolism. We fed rats a diet containing 30 wt.% instant noodle with a 26% fat-to-energy ratio for 30 days (N-group). Compared with rats that were fed the same diet without seasonings (C-group), the N-group showed lower liver triacylglycerol levels and higher fecal cholesterol levels. To assess the mechanisms underlying this phenotype, we conducted transcriptome analyses of the hypothalamic–pituitary axis (HP), liver and white adipose tissue (WAT). Our results suggest that these ingredients may affect lipid homeostasis via the HP axis.
Project description:Despite a variety of seasoning ingredients in diets, little is known about their cooperative effect on animal metabolism. We fed rats a diet containing 30 wt.% instant noodle with a 26% fat-to-energy ratio for 30 days (N-group). Compared with rats that were fed the same diet without seasonings (C-group), the N-group showed lower liver triacylglycerol levels and higher fecal cholesterol levels. To assess the mechanisms underlying this phenotype, we conducted transcriptome analyses of the hypothalamic–pituitary axis (HP), liver and white adipose tissue (WAT). Our results suggest that these ingredients may affect lipid homeostasis via the HP axis.
Project description:Despite a variety of seasoning ingredients in diets, little is known about their cooperative effect on animal metabolism. We fed rats a diet containing 30 wt.% instant noodle with a 26% fat-to-energy ratio for 30 days (N-group). Compared with rats that were fed the same diet without seasonings (C-group), the N-group showed lower liver triacylglycerol levels and higher fecal cholesterol levels. To assess the mechanisms underlying this phenotype, we conducted transcriptome analyses of the hypothalamic–pituitary axis (HP), liver and white adipose tissue (WAT). Our results suggest that these ingredients may affect lipid homeostasis via the HP axis.
Project description:Dietary proteins have profound effects on lipid metabolism but the mechanism remains to be elucidated. In the present study, we examined the temporal impact of dietary proteins in isoenergetic high fat diets on lipid metabolism of C57BL/6J mice. Mice were first fed a low protein (P) to carbohydrate (C) ratio high-fat diet (L-P/C-HF) for 10 weeks and then a half of mice were changed to a high protein to carbohydrate ratio high-fat diet (H-P/C-HF) for additional 4 weeks whereas the remaining mice continued eating the L-P/C-HF diet.
Project description:Analysis of effect of luteolin on lipid metabolism at gene expression level. The hypothesis tested in the present study was that luteolin treatment with obesogenic diet suppressed the hepatic lipogenesis pathways. Conversely, in adipose tissue, luteolin stimulated the lipogenesis pathway and it also simultaneously increased the expression of genes controlling lipolysis and TCA cycle. Results provide important information about the effect on diet-induced obesity and its metabolic complications. Total RNA of liver and adipose tissues was obtained from normal diet, high-fat diet and luteolin added high-fat diet-fed mice and mRNA expression-associated with lipid metabolism was measured.
Project description:We report the side-effects of High fat diet on the liver, and foud that the AOS could rescure the side-effect of High fat diet in many factors,such as lipid metabolism and oxidative stress
Project description:We report the side-effects of High fat diet on the liver, and foud that the AOS10-FMT could rescure the side-effect of High fat diet in many factors,such as lipid metabolism and oxidative stress
