Your search keyword '"Huneau JF"' showing total 5 results

1. Quinoa extract enriched in 20-hydroxyecdysone affects energy homeostasis and intestinal fat absorption in mice fed a high-fat diet.

Author

Foucault AS, Even P, Lafont R, Dioh W, Veillet S, Tomé D, Huneau JF, Hermier D, and Quignard-Boulangé A

Subjects

Animals, Chenopodium quinoa, Dietary Fats metabolism, Energy Intake drug effects, Energy Intake physiology, Energy Metabolism drug effects, Energy Metabolism physiology, Feces chemistry, Glucose metabolism, Homeostasis physiology, Intestinal Absorption physiology, Lipids analysis, Male, Mice, Mice, Inbred C57BL, Oxidation-Reduction drug effects, Plant Extracts pharmacology, Dietary Fats pharmacology, Ecdysterone pharmacology, Homeostasis drug effects, Intestinal Absorption drug effects

Abstract

In a previous study, we have demonstrated that a supplementation of a high-fat diet with a quinoa extract enriched in 20-hydroxyecdysone (QE) or pure 20-hydroxyecdysone (20E) could prevent the development of obesity. In line with the anti-obesity effect of QE, we used indirect calorimetry to examine the effect of dietary QE and 20E in high-fat fed mice on different components of energy metabolism. Mice were fed a high-fat (HF) diet with or without supplementation by QE or pure 20E for 3 weeks. As compared to mice maintained on a low-fat diet, HF feeding resulted in a marked physiological shift in energy homeostasis, associating a decrease in global energy expenditure (EE) and an increase in lipid utilization as assessed by the lower respiratory quotient (RQ). Supplementation with 20E increased energy expenditure while food intake and activity were not affected. Furthermore QE and 20E promoted a higher rate of glucose oxidation leading to an increased RQ value. In QE and 20E-treated HFD fed mice, there was an increase in fecal lipid excretion without any change in stool amount. Our study indicates that anti-obesity effect of QE can be explained by a global increase in energy expenditure, a shift in glucose metabolism towards oxidation to the detriment of lipogenesis and a decrease in dietary lipid absorption leading to reduced dietary lipid storage in adipose tissue., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

2. Early postprandial low-grade inflammation after high-fat meal in healthy rats: possible involvement of visceral adipose tissue.

Author

Magné J, Mariotti F, Fischer R, Mathé V, Tomé D, and Huneau JF

Subjects

Adipose Tissue, Animals, Atherosclerosis, CD11b Antigen biosynthesis, Cell Nucleus metabolism, Disease Models, Animal, Interleukin-6 metabolism, L-Selectin biosynthesis, Male, NF-kappa B metabolism, Phenotype, Postprandial Period, Rats, Rats, Inbred WKY, Dietary Fats, Inflammation, Intra-Abdominal Fat metabolism

Abstract

In the postprandial period, low-grade inflammation may contribute to vascular endothelial dysfunction, a hallmark of atherogenesis. Little is known about the involvement of the adipose tissue in the initiation of the postprandial inflammatory response such as obtained after a high-saturated fat meal (HFM). In the present study, we first studied the time course of appearance of systemic inflammation after a HFM in healthy rats, and then we investigated whether a HFM activates the inflammatory signaling in the visceral adipose tissue, with a focus on the key component, nuclear factor-kappaB (NF-kappaB). Two hours after the HFM, plasma IL-6 and PAI-1, but not plasma C-reactive protein and soluble intracellular adhesion molecule-1, showed a marked, transient increase. These changes were specific to the postprandial state as not observed after a control water load. Neutrophils count and activation markers CD11B and CD62L, assessed by flow cytometry, also rose significantly 2 h after the HFM, while remaining steady after the control. At the same time, the HFM decreased significantly B-cell count and expression of the activation marker CD62L. Interestingly, at the same early time after the HFM, in the visceral adipose tissue, there was a 2.2-fold increase in the activation of NF-kappaB (p65) in nuclear extract and an increase in IL-6 mRNA. As far as we know, this is the first study evidencing an acute, postprandial activation of inflammation in visceral adipose tissue. This early activation of NF-kappaB pathway after a HFM may play a triggering role in the initiation of the complex postprandial proatherogenic phenotype., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

3. Meal cysteine improves postprandial glucose control in rats fed a high-sucrose meal.

Author

Blouet C, Mariotti F, Mikogami T, Tome D, and Huneau JF

Subjects

Animals, Area Under Curve, Blood Glucose drug effects, Buthionine Sulfoximine blood, Buthionine Sulfoximine pharmacology, Cysteine administration & dosage, Insulin blood, Kinetics, Liver metabolism, Male, Postprandial Period, Rats, Rats, Wistar, Blood Glucose metabolism, Cysteine pharmacology, Dietary Carbohydrates, Sucrose pharmacology

Abstract

Whey protein, particularly the alpha-lactalbumin fraction, are rich in cysteine (cys) and could therefore favor postprandial glucose homeostasis by a glutathione-mediated effect. This work investigates the effects of the ingestion of an alpha-lactalbumin-rich whey concentrate (alpha-LAC) during a high-sucrose (HS) meal on postprandial glucose homeostasis in healthy rats. In the first experiment, rats received an HS meal containing 14% protein, in which the protein source was either alpha-LAC (HS(a)) or total milk proteins, alone (HS(0)) or supplemented with 17 mg (HS(1)) or 59 mg (HS(2)) of N-acetylcysteine (NAC). This resulted in a total cys content 3.6-fold higher in the HS(1) and HS(a) meals and 12-fold higher in the HS(2) meal, when compared to the HS(0) meal. Postprandial parameters were monitored for 3 h after ingestion of the meal. The same measurements were performed on rats injected with 4 mmol/kg of buthionine sulfoximine (BSO), a specific inhibitor of glutathione synthesis. Increasing the meal's cys content dose-dependently reduced both postprandial glucose and insulin (P<.05). The inhibition of glutathione synthesis with BSO injection abrogated the beneficial effects of NAC supplementation on postprandial glucose response but did not affect those of alpha-LAC. These results show that (1) the substitution of alpha-LAC for total milk protein reduces glucose response, as does the addition of a cys donor to the meal, (2) but contrary to those of a simple cys donor, the beneficial effects of alpha-LAC are not entirely mediated by glutathione synthesis, suggesting additional mechanisms.

Published

2007

4. Dietary cysteine alleviates sucrose-induced oxidative stress and insulin resistance.

Author

Blouet C, Mariotti F, Azzout-Marniche D, Mathé V, Mikogami T, Tomé D, and Huneau JF

Subjects

Animals, Base Sequence, DNA Primers, Feeding Behavior drug effects, Glucose Tolerance Test, Glutathione metabolism, Growth, Insulin metabolism, Male, Polymerase Chain Reaction, Postprandial Period, Rats, Rats, Wistar, Signal Transduction, Cysteine administration & dosage, Diet, Insulin Resistance, Oxidative Stress drug effects, Sucrose pharmacology

Abstract

Diets that promote oxidative stress favor impairment in glucose homeostasis. In this context, increasing the cysteine intake may be beneficial by maintaining glutathione status. We have investigated the effects of dietary cysteine on oxidative stress and glucose homeostasis in rats fed a high-sucrose (HS) diet. Rats were assigned for 6 weeks to a standard diet or to HS diets in which the protein source was either an alpha-lactalbumin-rich whey concentrate (a cysteine-rich protein) or the total milk proteins alone or supplemented with 5.8 or 20 g N-acetylcysteine per kilogram of food. Increasing the cysteine intake prevented HS-induced oxidative stress, as assessed by blood and tissue glutathione and carbonyl levels. At the same time, the HS-induced glucose intolerance, impaired postprandial glycemic control, and decrease in muscle and liver insulin-induced activation of insulin receptor substrate 1 and Akt were prevented by increasing the level of dietary cysteine, a major original finding. Of great interest was the observation that all beneficial effects of cysteine supplementation were duplicated by the consumption of a cysteine-rich protein. These data show that increasing the cysteine intake limits HS-induced impairment of glucose homeostasis and suggest that these effects are mediated by a reduction in oxidative stress.

Published

2007

5. Preabsorptive factors are not the main determinants of intake depression induced by a high-protein diet in the rat.

Author

L'Heureux-Bouron D, Tomé D, Bensaid A, Morens C, Lacroix M, Huneau JF, and Fromentin G

Subjects

Animals, Dietary Carbohydrates pharmacology, Drinking physiology, Energy Intake drug effects, Energy Intake physiology, Food Preferences drug effects, Food Preferences physiology, Male, Rats, Rats, Wistar, Stomach anatomy & histology, Sucrose pharmacology, Sweetening Agents pharmacology, Diet, Dietary Proteins pharmacology, Eating drug effects, Eating physiology, Intestinal Absorption physiology

Abstract

The factors involved in the depression of food intake produced by a high-protein diet are still poorly understood. The aim of this study was to assess the role of several preingestive or preabsorptive factors likely to influence food intake when rats were fed ad libitum. Food intake was measured after modifying the composition of the high-protein diet, i.e., the type of proteins, or carbohydrates. Moreover, correlations between high-protein diet intake and the quantity of fluid ingested or stomach volume were studied. By varying the carbohydrate composition (sucrose/cornstarch) and the protein source (soy or gluten or total milk protein) of high-protein diets, we modified the orosensory properties of these diets. However, no differences in food intake were observed between these groups of rats during the transition phase or after adaptation, except during the first day of soy- or gluten-based diets when the depression of food intake was intensified. The depression of high-protein diet intake was neither the consequence of any delay necessary to increase the fluid intake induced by eating a high-protein diet nor due to a marked increase in stomach volume, which might explain enhanced satiety and decreased food intake through the activation of vagal afferent fibers. Our experiments do not indicate a preponderant role for oropharyngeal or preabsorptive factors in the depression of food intake induced by a high-protein diet.

Published

2004