Search results for "Nutrient Physiology"

showing 3 items of 3 documents

Infant Formula Feeding Increases Hepatic Cholesterol 7α Hydroxylase (CYP7A1) Expression and Fecal Bile Acid Loss in Neonatal Piglets.

2018

BACKGROUND: During the postnatal feeding period, formula-fed infants have higher cholesterol synthesis rates and lower circulating cholesterol concentrations than their breastfed counterparts. Although this disparity has been attributed to the uniformly low dietary cholesterol content of typical infant formulas, little is known of the underlying mechanisms associated with this altered cholesterol metabolism phenotype. OBJECTIVE: We aimed to determine the molecular etiology of diet-associated changes in early-life cholesterol metabolism with the use of a postnatal piglet feeding model. METHODS: Two-day-old male and female White-Dutch Landrace piglets were fed either sow milk (Sow group) or d…

0301 basic medicineMalemedicine.medical_specialtymedicine.drug_classSwineMedicine (miscellaneous)030209 endocrinology & metabolismCholesterol 7 alpha-hydroxylaseReal-Time Polymerase Chain ReactionGene Expression Regulation EnzymologicBile Acids and Salts03 medical and health scienceschemistry.chemical_compoundFecesRandom Allocation0302 clinical medicineBlood serumInternal medicinemedicineAnimalsHumansCholesterol 7-alpha-HydroxylaseEnterohepatic circulationNutrition and DieteticsBile acidCholesterolReverse Transcriptase Polymerase Chain ReactionInfantFGF19Infant Formula030104 developmental biologyEndocrinologyMilkchemistryInfant formulaAnimals NewbornLiverFemaleSoybeansNutrient Physiology Metabolism and Nutrient-Nutrient InteractionsBreast feedingThe Journal of nutrition

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CLA-Enriched Diet Containing t10,c12-CLA Alters Bile Acid Homeostasis and Increases the Risk of Cholelithiasis in Mice

2011

International audience; Mice fed a mixture of CLA containing t10,c12-CLA lose fat mass and develop hyperinsulinemia and hepatic steatosis due to an accumulation of TG and cholesterol. Because cholesterol is the precursor in bile acid (BA) synthesis, we investigated whether t10,c12-CLA alters BA metabolism. In Expt. 1, female C57Bl/6J mice were fed a standard diet for 28 d supplemented with a CLA mixture (1 g/100 g) or not (controls). In Expt. 2, the feeding period was reduced to 4, 6, and 10 d. In Expt. 3, mice were fed a diet supplemented with linoleic acid, c9,t11-CLA, or t10,c12-CLA (0.4 g/100 g) for 28 d. In Expt. 1, the BA pool size was greater in CLA-fed mice than in controls and the …

Enterohepatic circulationmedicine.medical_specialtymedicine.drug_classLinoleic acid[SDV]Life Sciences [q-bio]Blotting WesternMedicine (miscellaneous)030209 endocrinology & metabolismCholesterol 7 alpha-hydroxylasePolymerase Chain ReactionBile Acids and SaltsMice03 medical and health scienceschemistry.chemical_compound0302 clinical medicineRisk FactorsCholelithiasisInternal medicineHyperinsulinémiemedicineHyperinsulinemiaAnimalsHomeostasisEnterohepatic circulation030304 developmental biology0303 health sciencesNutrition and DieteticsBile acidintegumentary systemCholesterolalpha-Linolenic Acidfood and beveragesmedicine.diseaseDietary FatsBile Salt Export PumpMice Inbred C57BLCholesterol 7-alpha hydroxylaseCholesterolEndocrinologyMetabolismLiverchemistryNutrient physiologyFemalelipids (amino acids peptides and proteins)Steatosis[SDV.AEN]Life Sciences [q-bio]/Food and Nutrition

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Mitochondrial Fatty Acid β-Oxidation Inhibition Promotes Glucose Utilization and Protein Deposition through Energy Homeostasis Remodeling in Fish.

2020

BACKGROUND: Fish cannot use carbohydrate efficiently and instead utilize protein for energy supply, thus limiting dietary protein storage. Protein deposition is dependent on protein turnover balance, which correlates tightly with cellular energy homeostasis. Mitochondrial fatty acid β-oxidation (FAO) plays a crucial role in energy metabolism. However, the effect of remodeled energy homeostasis caused by inhibited mitochondrial FAO on protein deposition in fish has not been intensively studied. OBJECTIVES: This study aimed to identify the regulatory role of mitochondrial FAO in energy homeostasis maintenance and protein deposition by studying lipid, glucose, and protein metabolism in fish. M…

0301 basic medicineMaleProtein metabolismMedicine (miscellaneous)MitochondrionEnergy homeostasis03 medical and health scienceschemistry.chemical_compoundNile tilapia0302 clinical medicineAdjuvants ImmunologicmedicineAnimalsHomeostasisInsulinCarnitineProtein kinase ACells CulturedZebrafishNutrition and DieteticsbiologyCarnitine O-PalmitoyltransferaseChemistryFatty AcidsProtein turnoverProteinsMetabolismCichlidsDNACytochromes bbiology.organism_classificationMitochondria030104 developmental biologyGlucoseBiochemistryMutationHepatocytesNutrient Physiology Metabolism and Nutrient-Nutrient InteractionsEnergy MetabolismOxidation-Reduction030217 neurology & neurosurgerymedicine.drugMethylhydrazinesThe Journal of nutrition

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