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1.
Mol Nutr Food Res ; 64(20): e2000354, 2020 10.
Article in English | MEDLINE | ID: mdl-32918392

ABSTRACT

SCOPE: To investigate the effects of squalene, the main hydrocarbon present in extra virgin olive oil, on liver transcriptome in different animal models and to test the influence of sex on this action and its relationship with hepatic lipids. METHODS AND RESULTS: To this purpose, male C57BL/6J Apoe-deficient mice are fed a purified Western diet with or without squalene during 11 weeks and hepatic squalene content is assessed, so are hepatic lipids and lipid droplets. Hepatic transcriptomic changes are studied and confirmed by RT-qPCR. Dietary characteristics and influence of squalene doses are tested in Apoe-deficient on purified chow diets with or without squalene. These diets are also given to Apoa1 and wild-type mice on C57BL/6J background and to C57BL/6J xOla129 Apoe-deficient mice. Squalene supplementation increases its hepatic content without differences among sexes and hormonal status. The Cyp2b10 and Cyp2c55 gene expressions are significantly up-regulated by the squalene intake in all models, with independence of sex, sexual hormones, dietary fat content, genetic background and dose, and in Apoe-deficient mice consuming extra-virgin olive oil. CONCLUSION: Hepatic squalene increases the expression of these cytochromes and their changes in virgin olive oil diets may be due to their squalene content.


Subject(s)
Aryl Hydrocarbon Hydroxylases/genetics , Cytochrome P450 Family 2/genetics , Liver/drug effects , Squalene/pharmacology , Steroid Hydroxylases/genetics , Animals , Apolipoprotein A-I/genetics , Apolipoproteins E/genetics , Castration , Cytochrome P-450 CYP2B6/genetics , Diet, Western , Dietary Supplements , Dose-Response Relationship, Drug , Female , Gene Expression Regulation/drug effects , Hep G2 Cells , Humans , Lipids/blood , Liver/physiology , Male , Mice, Inbred C57BL , Squalene/administration & dosage
2.
Sci Rep ; 9(1): 11311, 2019 08 05.
Article in English | MEDLINE | ID: mdl-31383924

ABSTRACT

Dietary composition plays an important role in the pathophysiology of type 2 diabetes. Monounsaturated fatty acid consumption has been positively associated with improved insulin sensitivity and ß-cell function. We examined whether an extra virgin olive oil (EVOO) high fat diet (HFD) can improve glucose homeostasis. C57BL/6J mice were fed a standard diet or a lard-based HFD to induce type 2 diabetes. Then, HFD mice were fed with three different based HFD (lard, EVOO and EVOO rich in phenolic compounds) for 24 weeks. HFD-EVOO diets significantly improved glycemia, insulinemia, glucose tolerance, insulin sensitivity and insulin degradation. Moreover, EVOO diets reduced ß-cell apoptosis, increased ß-cell number and normalized islet glucose metabolism and glucose induced insulin secretion. No additional effects were observed by higher levels of phenolic compounds. Thus, EVOO intake regulated glucose homeostasis by improving insulin sensitivity and pancreatic ß-cell function, in a type 2 diabetes HFD animal model.


Subject(s)
Diabetes Mellitus, Type 2/diet therapy , Diet, High-Fat/methods , Insulin Resistance , Insulin-Secreting Cells/metabolism , Olive Oil/therapeutic use , Animals , Blood Glucose/metabolism , Cells, Cultured , Diabetes Mellitus, Type 2/blood , Diabetes Mellitus, Type 2/metabolism , Disease Models, Animal , Glucose/metabolism , Insulin/metabolism , Insulin Secretion , Male , Mice, Inbred C57BL
3.
Mol Nutr Food Res ; 61(3)2017 03.
Article in English | MEDLINE | ID: mdl-27749006

ABSTRACT

SCOPE: We evaluated the protective effect of extra virgin olive oil (EVOO) in high-fat diets (HFDs) on the inflammatory response and liver damage in a nonalcoholic fatty liver disease (NAFLD) mouse model. METHODS AND RESULTS: C57BL/6J mice were fed a standard diet or a lard-based HFD (HFD-L) for 12 wk to develop NAFLD. HFD-fed mice were then divided into four groups and fed for 24 wk with the following: HFD-L, HFD-EVOO, HFD based on phenolics-rich EVOO, and reversion (standard diet). HFD-L-induced metabolic disorders were alleviated by replacement of lard with EVOO. EVOO diets improved plasma lipid profile and reduced body weight, plasma and epididymal fat INF-γ, IL-6 and leptin levels, and macrophage infiltration. Moreover, NAFLD activity scores were reduced. The liver lipid composition showed an increase in MUFAs, especially oleic acid, and a decrease in saturated fatty acids. Hepatic adiponutrin and Cd36 gene expression was upregulated in the EVOO groups. Liver ingenuity pathway analysis revealed in EVOO groups regulation of proteins involved in lipid metabolism, small molecule biochemistry, gastrointestinal disease, and liver regeneration. CONCLUSION: Dietary EVOO could repair HFD-induced hepatic damage, possibly via an anti-inflammatory effect in adipose tissue and modifications in the liver lipid composition and signaling pathways.


Subject(s)
Diet, High-Fat/adverse effects , Non-alcoholic Fatty Liver Disease/diet therapy , Olive Oil/pharmacology , Adipose Tissue/drug effects , Adipose Tissue/metabolism , Adipose Tissue/pathology , Animals , Body Weight/drug effects , Cytokines/metabolism , Diet, Western/adverse effects , Gene Expression Regulation , Lipid Metabolism/drug effects , Lipid Metabolism/genetics , Liver/drug effects , Liver/metabolism , Liver/pathology , Male , Mice, Inbred C57BL , Non-alcoholic Fatty Liver Disease/etiology , Organ Size/drug effects , Phospholipases A2, Calcium-Independent/genetics
4.
Nutrients ; 6(11): 5338-69, 2014 Nov 21.
Article in English | MEDLINE | ID: mdl-25421534

ABSTRACT

Diabetes mellitus (DM) is considered a global pandemic, and the incidence of DM continues to grow worldwide. Nutrients and dietary patterns are central issues in the prevention, development and treatment of this disease. The pathogenesis of DM is not completely understood, but nutrient-gene interactions at different levels, genetic predisposition and dietary factors appear to be involved. Nutritional genomics studies generally focus on dietary patterns according to genetic variations, the role of gene-nutrient interactions, gene-diet-phenotype interactions and epigenetic modifications caused by nutrients; these studies will facilitate an understanding of the early molecular events that occur in DM and will contribute to the identification of better biomarkers and diagnostics tools. In particular, this approach will help to develop tailored diets that maximize the use of nutrients and other functional ingredients present in food, which will aid in the prevention and delay of DM and its complications. This review discusses the current state of nutrigenetics, nutrigenomics and epigenomics research on DM. Here, we provide an overview of the role of gene variants and nutrient interactions, the importance of nutrients and dietary patterns on gene expression, how epigenetic changes and micro RNAs (miRNAs) can alter cellular signaling in response to nutrients and the dietary interventions that may help to prevent the onset of DM.


Subject(s)
Diabetes Mellitus/epidemiology , Diabetes Mellitus/genetics , Nutrigenomics , Animals , Diet , Disease Models, Animal , Epigenesis, Genetic , Gene Expression , Genetic Predisposition to Disease , Genetic Variation , Humans , Incidence , MicroRNAs/genetics , MicroRNAs/metabolism
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