Your search keyword '"Huneau JF"' showing total 25 results

1. Regarding: the impacts of partial replacement of red and processed meat with legumes or cereals on protein and amino acid intakes: a modelling study in the Finnish adult population.

Author

Mariotti F, Gardner C, Fouillet H, and Huneau JF

Subjects

Humans, Finland epidemiology, Adult, Meat Products, Meat, Edible Grain, Dietary Proteins administration & dosage, Amino Acids administration & dosage, Fabaceae

Published

2024

2. Plant-Protein Diversity Is Critical to Ensuring the Nutritional Adequacy of Diets When Replacing Animal With Plant Protein: Observed and Modeled Diets of French Adults (INCA3).

Author

Salomé M, de Gavelle E, Dufour A, Dubuisson C, Volatier JL, Fouillet H, Huneau JF, and Mariotti F

Subjects

Adult, Animals, France, Humans, Dietary Proteins administration & dosage, Nutrition Policy, Plant Proteins administration & dosage, Plant Proteins chemistry

Abstract

Background: There is a current trend in Western countries toward increasing the intake of plant protein. A higher plant-protein intake has been associated with nutritional and health benefits, but these may depend on the pattern of plant-protein sources., Objective: We hypothesized that the diversity of plant foods could be important to nutrient adequacy when increasing plant-protein intake in the diet., Methods: Using data on 1341 adults (aged 18-64 y) from a representative French national dietary survey conducted in 2014-2015 (the third Individual and National Study on Food Consumption Survey-INCA3), we studied the links between plant-protein intake, dietary diversity (using various dimensions), and nutrient adequacy [assessed using the PANDiet (Probability of Adequate Nutrient Intake) scoring system, comprising adequacy (AS) and moderation (MS) subscores]. We simulated substituting plant-protein foods for animal-protein foods using different models of plant-protein diversity., Results: We found that overall diet quality was weakly associated with total and protein diversity and more strongly with plant-protein diversity. Plant-protein intake was inversely associated with animal-protein intake, and positively with the PANDiet and MS, but not with the AS. Plant-protein intake displayed little diversity, mostly taking the form of grains (61% of plant-protein intake), and this diversity was even less marked under a higher plant-protein intake. Finally, modeled substitutions showed that reducing animal-protein intake increased the MS (by 32%) in a similar manner whichever plant protein was used for substitution, whereas it decreased the AS (by 20%) unless using a highly diversified plant-protein mix. These simulated improvements in overall adequacy included marked decreases in adequacy regarding certain nutrients that are typically of animal origin., Conclusions: We conclude that in French adults the current pattern of plant-protein intake is hindering the nutritional benefits of a transition toward more plant protein, indicating that the consumption of plant-protein-based foods other than refined grains should be encouraged., (Copyright © The Author(s) 2019.)

Published

2020

3. Patterns of amino acid intake are strongly associated with cardiovascular mortality, independently of the sources of protein.

Author

Tharrey M, Mariotti F, Mashchak A, Barbillon P, Delattre M, Huneau JF, and Fraser GE

Subjects

Adult, Aged, Amino Acids adverse effects, Cardiovascular Diseases blood, Dietary Proteins adverse effects, Female, Humans, Life Style, Male, Middle Aged, Nutritional Status, Population Surveillance, Risk Assessment, Risk Factors, Surveys and Questionnaires, Amino Acids administration & dosage, Cardiovascular Diseases mortality, Dietary Proteins administration & dosage

Abstract

Background: The intake of specific amino acids (AA) has been associated with cardiovascular health, but amino acids are consumed together as dietary protein. Here we investigated the association between identified patterns of amino acid intake and cardiovascular mortality., Methods: A total of 2216 cardiovascular deaths among 79 838 men and women from the Adventist Health Study-2 were included in our analysis. Baseline dietary patterns based on the participants' amino acids intakes were derived by factor analysis. Using Cox regression analyses, we estimated multivariate-adjusted hazard ratios (HRs) adjusted for sociodemographic and lifestyle factors and other dietary components., Results: Three patterns of amino acids were identified. Factor 1 was positively associated with cardiovascular disease (CVD) mortality [hazard ratio (HR)Q5-Q1: 1.62, 98.75% confidence interval (CI): 1.15, 2.28; P-trend <0.001]; and Factors 2 and 3 were inversely associated with CVD mortality (HR Q5-Q1 Factor 2: 0.74, 98.75% CI: 0.53, 1.04; P-trend <0.01 and HR Q5-Q1 Factor 3: 0.65, 98.75% CI: 0.44, 0.95; P-trend <0.05]. The associations with Factor 1 (with high loadings on indispensable amino acids such as branched chain amino acids, lysine, methionine) and Factor 3 (with high loadings on non-indispensable amino acids, namely arginine, glycine, aspartate+asparagine) remained significant after further adjustment for nutrient intake and for the five protein source patterns identified previously (HR Q5-Q1: 1.56 (0.99, 2.45) and 0.55 (0.35, 0.85); P-trends < 0.01)., Conclusions: Indispensable AA have a positive and some non-indispensable AA have a negative, independent, strong association with the risk of cardiovascular mortality., (© The Author(s) 2019; all rights reserved. Published by Oxford University Press on behalf of the International Epidemiological Association.)

Published

2020

4. Self-declared attitudes and beliefs regarding protein sources are a good prediction of the degree of transition to a low-meat diet in France.

Author

de Gavelle E, Davidenko O, Fouillet H, Delarue J, Darcel N, Huneau JF, and Mariotti F

Subjects

Adolescent, Adult, Aged, Diet, Healthy, Female, France epidemiology, Humans, Male, Middle Aged, Overweight epidemiology, Portion Size, Sex Factors, Socioeconomic Factors, Surveys and Questionnaires, Vegetarians, Young Adult, Diet, Dietary Proteins, Health Knowledge, Attitudes, Practice, Meat

Abstract

Meat consumption in Western countries is declining and, while the proportion of strict vegetarians remains low, intermediate diets such as flexitarianism have been developing in recent years. Our objectives were to identify the different levels of transition towards low-meat diets, characterize how these diets differ in terms of food intake, and identify whether attitudes and beliefs can explain these degrees of transition. In a representative survey of the French adult population conducted in 2018 (n = 2055), participants declared whether they followed a particular diet and completed a food frequency questionnaire on 29 food sources of protein and a questionnaire on their attitudes and beliefs regarding protein sources. We identified four dietary types based on these declarative data: vegetarians, flexitarians, pro-flexitarians and omnivores. The theory of planned behavior was used to predict meat intake and intentions to reduce meat intake. The sample contained 2.5% vegetarians, 6.3% flexitarians, 18.2% pro-flexitarians and 72.9% omnivores. The diet groups displayed specific dietary profiles and attitudinal scores. Compared with omnivores, pro-flexitarians consumed less red meat, more vegetables and legumes and were much more in agreement about the environmental impacts of meat. Compared with pro-flexitarians, flexitarians consumed less red meat and processed meat, and agreed much more about the health impacts of meat. Finally, versus flexitarians, vegetarians consumed almost no meat but far more legumes, nuts and seeds, and were much more sensitive to animal welfare issues. Attitudes, social norms and perceived behavioral control (PBC) predicted intentions to reduce meat consumption but attitude was the most important predictor. Intentions and PBC were both predictive of meat consumption. The dietary type related to the level of meat intake could be predicted by self-declared attitudes and beliefs regarding protein sources., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

5. The Willingness to Modify Portion Sizes or Eat New Protein Foods Largely Depends on the Dietary Pattern of Protein Intake.

Author

de Gavelle E, Davidenko O, Fouillet H, Delarue J, Darcel N, Huneau JF, and Mariotti F

Subjects

Adolescent, Adult, Cross-Sectional Studies, Diet Surveys, Female, France epidemiology, Health Behavior physiology, Humans, Male, Middle Aged, Young Adult, Diet statistics & numerical data, Dietary Proteins, Feeding Behavior physiology, Patient Acceptance of Health Care statistics & numerical data, Portion Size

Abstract

Promoting a more balanced animal/plant dietary protein ratio by changing portion sizes or introducing new foods is a promising means to improve diet quality, but little is known about the willingness of individuals to adopt such changes. Our objective was to assess the willingness to adopt dietary changes by these means. In a French cross-sectional study in 2018 (n = 2055), we analyzed the association between the willingness to eat smaller or larger portions or to introduce non-consumed protein foods and the current dietary patterns of individuals and their socio-demographic characteristics. These modifications had previously been identified as improving the nutrient adequacy of diets. Participants were more willing to eat smaller portion sizes than to introduce new foods and to eat larger portion sizes. The willingness for any modification varied depending on the food groups concerned. Participants were also more willing to eat larger portions and less willing to eat smaller portions when they were the most frequent consumers of the foods concerned. Participants were more willing to eat a new food if it was consumed in large quantities by individuals with a similar dietary pattern. This study underlines the importance of accounting for individual food habits when issuing nutritional recommendations.

Published

2019

6. Natural Isotope Abundances of Carbon and Nitrogen in Tissue Proteins and Amino Acids as Biomarkers of the Decreased Carbohydrate Oxidation and Increased Amino Acid Oxidation Induced by Caloric Restriction under a Maintained Protein Intake in Obese Rats.

Author

Huneau JF, Mantha OL, Hermier D, Mathé V, Galmiche G, Mariotti F, and Fouillet H

Subjects

Amino Acids metabolism, Animal Feed, Animals, Biomarkers, Carbohydrate Metabolism, Diet veterinary, Humans, Male, Oxidation-Reduction, Proteins metabolism, Random Allocation, Rats, Rats, Wistar, Amino Acids chemistry, Caloric Restriction, Carbon Isotopes, Dietary Proteins administration & dosage, Nitrogen Isotopes, Proteins chemistry

Abstract

A growing body of evidence supports a role for tissue-to-diet 15 N and 13 C discrimination factors (Δ 15 N and Δ 13 C), as biomarkers of metabolic adaptations to nutritional stress, but the underlying mechanisms remain poorly understood. In obese rats fed ad libitum or subjected to gradual caloric restriction (CR), under a maintained protein intake, we measured Δ 15 N and Δ 13 C levels in tissue proteins and their constitutive amino acids (AA) and the expression of enzymes involved in the AA metabolism. CR was found to lower protein mass in the intestine, liver, heart and, to a lesser extent, some skeletal muscles. This was accompanied by Δ 15 N increases in urine and the protein of the liver and plasma, but Δ 15 N decreases in the proteins of the heart and the skeletal muscles, alongside Δ 13 C decreases in all tissue proteins. In Lys, Δ 15 N levels rose in the plasma, intestine, and some muscles, but fell in the heart, while in Ala, and to a lesser extent Glx and Asx, Δ 13 C levels fell in all these tissues. In the liver, CR was associated with an increase in the expression of genes involved in AA oxidation. During CR, the parallel rises of Δ 15 N in urine, liver, and plasma proteins reflected an increased AA catabolism occurring at the level of the liver metabolic branch point, while Δ 15 N decreases in cardiac and skeletal muscle proteins indicated increased protein and AA catabolism in these tissues. Thus, an increased protein and AA catabolism results in opposite Δ 15 N effects in splanchnic and muscular tissues. In addition, the Δ 13 C decrease in all tissue proteins, reflects a reduction in carbohydrate (CHO) oxidation and routing towards non-indispensable AA, to achieve fuel economy.

Published

2019

7. The Initial Dietary Pattern Should Be Considered when Changing Protein Food Portion Sizes to Increase Nutrient Adequacy in French Adults.

Author

de Gavelle E, Huneau JF, Fouillet H, and Mariotti F

Subjects

Adult, Energy Intake, Female, France, Humans, Male, Nutritional Status, Nutritive Value, Portion Size, Diet, Dietary Proteins administration & dosage, Feeding Behavior

Abstract

Background: Patterns of protein food intake are undergoing a transition in Western countries, but little is known about how dietary changes to protein intake affect nutrient adequacy of the diet., Objectives: Our objective was to identify simple modifications to protein food intake that can gradually increase overall nutrient adequacy., Methods: We identified patterns of dietary protein intake in 1678 adults from a representative French national dietary survey. For each individual, we identified the increase in portion size of 1 protein food paired with a decrease in the portion size of another protein food that would best increase nutrient adequacy (using PANDiet probabilistic scoring). Then, such an optimum simple dual change was iterated 20 times for each individual according to 2 scenarios, either by manipulating the intake of foods already consumed [scenario 1 (S1)] or by enabling the introduction of foods consumed by >10% of individuals with the same protein pattern [scenario 2 (S2)]., Results: The optimum stepwise changes to protein intake primarily consisted of reducing portions of deli meats (both scenarios), sandwiches, and cheese (S2), while increasing portions of fatty fish and lean poultry (both scenarios) and legumes (S2). However, these changes differed depending on the initial dietary protein pattern of the individual. For example, in S2, legume intake increased among "poultry" and "fish" eaters only and low-fat meat among "take-away eaters" and "milk drinkers" only. The improvements in overall nutrient adequacy were similar among the different initial dietary patterns, but this was the result of changes to the adequacy of different specific nutrients., Conclusion: Beyond generic changes to protein intake in the entire French adult population, the initial dietary protein pattern is key to identifying the food groups most likely to improve overall nutrient adequacy and the profile of nutrients whose adequacy can easily be increased., (© 2019 American Society for Nutrition.)

Published

2019

8. Patterns of Protein Food Intake Are Associated with Nutrient Adequacy in the General French Adult Population.

Author

Gavelle E, Huneau JF, and Mariotti F

Subjects

Adult, Diet Surveys, Dietary Proteins metabolism, Fast Foods, Female, France, Humans, Male, Meat, Middle Aged, Milk Proteins administration & dosage, Nutritive Value, Plant Proteins administration & dosage, Dietary Proteins administration & dosage, Eating, Feeding Behavior, Nutritional Status

Abstract

Protein food intake appears to partially structure dietary patterns, as most current emergent diets (e.g., vegetarian and flexitarian) can be described according to their levels of specific protein sources. However, few data are available on dietary protein patterns in the general population and their association with nutrient adequacy. Based on protein food intake data concerning 1678 adults from a representative French national dietary survey, and non-negative-matrix factorization followed by cluster analysis, we were able to identify distinctive dietary protein patterns and compare their nutrient adequacy (using PANDiet probabilistic scoring). The findings revealed eight patterns that clearly discriminate protein intakes and were characterized by the intakes of one or more specific protein foods: 'Processed meat', 'Poultry', 'Pork', 'Traditional', 'Milk', 'Take-away', 'Beef' and 'Fish'. 'Fish eaters' and 'Milk drinkers' had the highest overall nutrient adequacy, whereas that of 'Pork' and 'Take-away eaters' was the lowest. Nutrient adequacy could often be accounted for by the characteristics of the food contributing to protein intake: 'Meat eaters' had high probability of adequacy for iron and zinc, for example. We concluded that protein patterns constitute strong elements in the background structure of the dietary intake and are associated with the nutrient profile that they convey., Competing Interests: The authors declare no conflict of interest.

Published

2018

9. Protein Adequacy Is Primarily a Matter of Protein Quantity, Not Quality: Modeling an Increase in Plant:Animal Protein Ratio in French Adults.

Author

de Gavelle E, Huneau JF, Bianchi CM, Verger EO, and Mariotti F

Subjects

Adult, Amino Acids administration & dosage, Amino Acids deficiency, Animals, Computer Simulation, Diet, Female, France, Humans, Male, Models, Biological, Nutritional Requirements, Nutritional Status, Nutritive Value, Dietary Proteins classification, Meat, Plant Proteins administration & dosage

Abstract

A downward trend in animal protein (AP) intake has been observed in western countries over the last decade and the effects of such a transition on protein adequacy remain debatable. Using the probability approach and diet modeling with data on 1678 adults from a representative French national dietary survey, we studied the sensitivity of the adequacy of protein and amino acid intakes to changes in animal:plant protein. We simulated the gradual substitution of AP with different mixtures of plant protein (PP), containing various proportions of PP already consumed and legumes, nuts and seeds (LNS). We found that protein and amino acid intakes met dietary requirements in virtually the entire population studied. Up to 50% of PP in diets, protein and amino acid intakes were adequate in all models. From 50%, protein inadequacy was primary due to protein quantity, and from 70%, to protein quality (as lysine inadequacy). The introduction of LNS in the mixture substituting AP led to adequate protein intakes for higher percentages of PP. An increase in PP based on the current pattern of plant protein sources, low in protein:energy, could lead to inadequate protein intake, but the contribution of LNS ensures the safety of a further transition., Competing Interests: The authors declare no conflict of interest.

Published

2017

10. Diet-animal fractionation of nitrogen stable isotopes reflects the efficiency of nitrogen assimilation in ruminants.

Author

Cantalapiedra-Hijar G, Ortigues-Marty I, Sepchat B, Agabriel J, Huneau JF, and Fouillet H

Subjects

Animals, Animals, Inbred Strains, Biomarkers analysis, Biomarkers blood, Biomarkers metabolism, Biomarkers urine, Blood Proteins analysis, Blood Proteins biosynthesis, Cattle, Dairying, Female, France, Lactation blood, Lactation metabolism, Male, Maternal Nutritional Physiological Phenomena, Meat analysis, Nitrogen Isotopes, Weaning, Dietary Proteins metabolism, Milk Proteins biosynthesis, Models, Biological, Muscle Proteins biosynthesis, Nitrogen Cycle, Silage, Splanchnic Circulation

Abstract

The natural abundance of ¹⁵N in animal proteins (δ¹⁵Nanimal) is greater than that in the diet consumed by the animals (δ¹⁵Ndiet), with a discrimination factor (Δ¹⁵N = δ¹⁵Nanimal - δ¹⁵Ndiet) that is known to vary according to nutritional conditions. The objectives of the present study were to test the hypothesis that Δ¹⁵N variations depend on the efficiency of nitrogen utilisation (ENU) in growing beef cattle, and to identify some of the physiological mechanisms responsible for this N isotopic fractionation in ruminants. Thus, we performed the regression of the Δ¹⁵N of plasma proteins obtained from thirty-five finishing beef cattle fed standard and non-conventional diets against different feed efficiency indices, including ENU. We also performed the regression of the Δ¹⁵N of different ruminant N pools (plasma and milk proteins, urine and faeces) against different splanchnic N fluxes obtained from multi-catheterised lactating dairy cows. The Δ¹⁵N of plasma proteins was negatively correlated with feed efficiency indices in beef cattle, especially ENU (body protein gain/N intake) and efficiency of metabolisable protein (MP) utilisation (body protein gain/MP intake). Although Δ¹⁵N obtained from different N pools in dairy cows were all negatively correlated with ENU, the highest correlation was found when Δ¹⁵N was calculated from plasma proteins. Δ¹⁵N showed no correlation with urea-N recycling or rumen NH₃ absorption, but exhibited a strong correlation with liver urea synthesis and splanchnic amino acid metabolism, which points to a dominant role of splanchnic tissues in the present N isotopic fractionation study.

Published

2015

11. Plant and animal protein intakes are differently associated with nutrient adequacy of the diet of French adults.

Author

Camilleri GM, Verger EO, Huneau JF, Carpentier F, Dubuisson C, and Mariotti F

Subjects

Adolescent, Adult, Aged, Cross-Sectional Studies, Dairy Products, Diet Surveys, Female, France, Humans, Life Style, Male, Meat, Middle Aged, Nutrition Assessment, Nutritive Value, Plant Proteins administration & dosage, Socioeconomic Factors, Young Adult, Diet, Dietary Proteins administration & dosage, Energy Intake, Feeding Behavior, White People

Abstract

The sustainability of dietary plant and animal protein consumption is an important issue, but few data are available to ascertain the health-related impact of animal and plant protein intake. The objective was to study the relationships between animal and plant protein intake and diet quality, as reflected by an integrated index of nutrient adequacy. Using data on 1912 adults from the French Individual and National Consumption Survey 2 (2006-2007), we assessed diet quality by using the PANDiet, a unique score combining 35 probabilities of having an adequate nutrient intake, and used multiple regression analysis to study the relationship with intakes of plant, animal, and related food source proteins. After adjustments for intakes of energy, alcohol, and protein from other sources and sociodemographic factors, plant protein intake was positively associated with the PANDiet, irrespective of sex (β = 0.50, P < 0.0001). By contrast, total and animal protein intakes were differently associated with the PANDiet according to sex, with a positive association in women (β = 0.07 and β = 0.08, respectively; P < 0.01) and an inverse association in men (β = -0.07 and β = -0.05, respectively; P < 0.01). The relationships between the PANDiet and intakes of protein from animal food sources varied: for instance, associations were inverse for red meat and poultry in men but not in women, whereas irrespective of sex, they were positive for fish, milk, and yogurt and inverse for processed meat, cheese, and eggs. These findings show that plant protein is a robust marker of a healthy diet, whereas total animal protein includes different subtypes of animal protein that largely vary in their relationship with diet quality. These data could help refine protein recommendations from a qualitative and dietary standpoint.

Published

2013

12. The nature of the dietary protein impacts the tissue-to-diet 15N discrimination factors in laboratory rats.

Author

Poupin N, Bos C, Mariotti F, Huneau JF, Tomé D, and Fouillet H

Subjects

Animals, Body Composition drug effects, Body Weight drug effects, Male, Nitrogen blood, Nitrogen Isotopes, Organ Size drug effects, Rats, Rats, Wistar, Diet, Dietary Proteins pharmacology, Laboratories, Nitrogen metabolism, Organ Specificity drug effects

Abstract

Due to the existence of isotope effects on some metabolic pathways of amino acid and protein metabolism, animal tissues are (15)N-enriched relative to their dietary nitrogen sources and this (15)N enrichment varies among different tissues and metabolic pools. The magnitude of the tissue-to-diet discrimination (Δ(15)N) has also been shown to depend on dietary factors. Since dietary protein sources affect amino acid and protein metabolism, we hypothesized that they would impact this discrimination factor, with selective effects at the tissue level. To test this hypothesis, we investigated in rats the influence of a milk or soy protein-based diet on Δ(15)N in various nitrogen fractions (urea, protein and non-protein fractions) of blood and tissues, focusing on visceral tissues. Regardless of the diet, the different protein fractions of blood and tissues were generally (15)N-enriched relative to their non-protein fraction and to the diet (Δ(15)N>0), with large variations in the Δ(15)N between tissue proteins. Δ(15)N values were markedly lower in tissue proteins of rats fed milk proteins compared to those fed soy proteins, in all sampled tissues except in the intestine, and the amplitude of Δ(15)N differences between diets differed between tissues. Both between-tissue and between-diet Δ(15)N differences are probably related to modulations of the relative orientation of dietary and endogenous amino acids in the different metabolic pathways. More specifically, the smaller Δ(15)N values observed in tissue proteins with milk than soy dietary protein may be due to a slightly more direct channeling of dietary amino acids for tissue protein renewal and to a lower recycling of amino acids through fractionating pathways. In conclusion, the present data indicate that natural Δ(15)N of tissue are sensitive markers of the specific subtle regional modifications of the protein and amino acid metabolism induced by the protein dietary source.

Published

2011

13. When the effect of dairy "protein" on weight gain cannot be solely ascribed to protein.

Author

Mariotti F, Bos C, and Huneau JF

Subjects

Animals, Rats, Dietary Proteins metabolism, Dietary Sucrose metabolism, Weight Gain physiology

Published

2010

14. Rapeseed protein in a high-fat mixed meal alleviates postprandial systemic and vascular oxidative stress and prevents vascular endothelial dysfunction in healthy rats.

Author

Magné J, Huneau JF, Tsikas D, Delemasure S, Rochette L, Tomé D, and Mariotti F

Subjects

Acetylcholine, Animals, Aorta drug effects, Arginine pharmacology, Blood Pressure drug effects, Cattle, Cross-Over Studies, Cysteine pharmacology, Diet, Dietary Fats, Fatty Acids pharmacology, Fluorescence, Hydrogen Peroxide blood, Male, Milk Proteins pharmacology, Postprandial Period, Rats, Rats, Wistar, Superoxides blood, Triglycerides blood, Antioxidants pharmacology, Brassica rapa, Dietary Proteins pharmacology, Endothelium, Vascular drug effects, Oxidative Stress drug effects, Plant Proteins pharmacology

Abstract

High-saturated fat and high-sucrose meals induce vascular endothelial dysfunction, the early hallmark of atherogenesis. The impact of dietary protein on vascular homeostasis remains misunderstood. In this study, we investigated whether rapeseed protein, an emergent arginine- and cysteine-rich protein, can acutely modulate the onset of adverse effects induced by a high-saturated fat meal (HFM). In a series of crossover experiments, healthy rats received 3 HFM (saturated fat: 60%; sucrose: 20%; protein: 20% energy) with the protein source being either total milk protein (MP; control), rapeseed protein (RP), or MP supplemented with cysteine and arginine to the same level as in RP (MP+AA). Endothelium-related vascular reactivity, measured as an acetylcholine-induced transient decrease in blood pressure, and plasma triglycerides, hydroperoxides, cyclic GMP (cGMP), and free 3-nitrotyrosine were measured before and 2, 4, and 6 h after meals. Superoxide anion production, expressed as ethidine fluorescence, was measured in the aorta 6 h after meals. Whereas plasma triglycerides rose similarly in all meals, the decrease in vascular reactivity after MP was attenuated after MP+AA and entirely prevented after RP. The type of meal had no consistent effect on plasma cGMP and free 3-nitrotyrosine over the postprandial period. The postprandial increase in plasma hydroperoxides differed according to the meal, and concentrations were 43% lower 6 h after MP+AA and RP than after MP. Aortic superoxide anion production was 36% lower 6 h after RP than MP. These results show that substituting rapeseed protein for milk protein markedly reduces vascular and oxidative disturbances induced by an HFM and this may be mediated in part by cysteine and arginine.

Published

2009

15. Rapeseed protein inhibits the initiation of insulin resistance by a high-saturated fat, high-sucrose diet in rats.

Author

Mariotti F, Hermier D, Sarrat C, Magné J, Fénart E, Evrard J, Tomé D, and Huneau JF

Subjects

Animals, Biomarkers blood, Blood Glucose analysis, Fatty Acids, Omega-3 administration & dosage, Glucose Tolerance Test, Glutathione blood, Insulin blood, Male, Milk Proteins administration & dosage, Models, Animal, Plant Proteins administration & dosage, Rats, Rats, Wistar, Triglycerides blood, Brassica rapa, Dietary Carbohydrates adverse effects, Dietary Fats adverse effects, Dietary Proteins administration & dosage, Insulin Resistance, Sucrose adverse effects

Abstract

In contrast to the quality of carbohydrates and lipids, little is known on the influence of the type of dietary protein on the development of the metabolic or insulin resistance syndrome. Cysteine intake has been recently documented to impact insulin sensitivity. The aim of this study was to determine whether rapeseed protein, an emergent cysteine-rich protein, could inhibit the onset of the metabolic syndrome. For 9 weeks, rats were fed a diet rich in saturated fats and sucrose, which also included 20 % protein either as milk protein ('Induction' diet I) or rapeseed protein (diet R). A third, control group received an isoenergetic diet containing milk protein but polyunsaturated fats and starch ('Prudent' diet P). Plasma glucose, insulin, TAG and cholesterol, and blood pressure were monitored during the study, glucose tolerance was tested at week 7 and body composition determined at week 9. Plasma glucose, insulin and TAG increased during the experiment and, at week 9, plasma insulin was significantly 34 % lower in the R group and 56 % lower in P group as compared with the I group. The insulin peak after the glucose load was significantly 28-30 % lower in R and P than in I and the insulin sensitivity index was significantly higher in R than in I. Unexpectedly, peripheral fat deposition was slightly higher in R than in I. In this model, substituting rapeseed protein for milk protein had preventive effects on the early onset of insulin resistance, similar to those achieved by manipulating the types of dietary fat and carbohydrates.

Published

2008

16. Liver glyconeogenesis: a pathway to cope with postprandial amino acid excess in high-protein fed rats?

Author

Azzout-Marniche D, Gaudichon C, Blouet C, Bos C, Mathé V, Huneau JF, and Tomé D

Subjects

Amino Acids blood, Animals, Blood Glucose metabolism, Cells, Cultured, Dose-Response Relationship, Drug, Fasting, Gene Expression Regulation, Glucagon metabolism, Glucagon pharmacology, Glucose-6-Phosphatase genetics, Glucose-6-Phosphatase metabolism, Glucose-6-Phosphatase physiology, Hepatocytes cytology, Hepatocytes metabolism, Hypoglycemic Agents metabolism, Hypoglycemic Agents pharmacology, Insulin blood, Insulin pharmacology, Liver cytology, Liver enzymology, Liver Glycogen analysis, Male, Phosphoenolpyruvate Carboxykinase (GTP) genetics, Phosphoenolpyruvate Carboxykinase (GTP) metabolism, Phosphoenolpyruvate Carboxykinase (GTP) physiology, Portal System physiology, Rats, Rats, Wistar, Dietary Proteins administration & dosage, Gluconeogenesis, Glucose biosynthesis, Liver metabolism, Liver Glycogen metabolism

Abstract

This paper provides molecular evidence for a liver glyconeogenic pathway, that is, a concomitant activation of hepatic gluconeogenesis and glycogenesis, which could participate in the mechanisms that cope with amino acid excess in high-protein (HP) fed rats. This evidence is based on the concomitant upregulation of phosphoenolpyruvate carboxykinase (PEPCK) gene expression, downregulation of glucose 6-phosphatase catalytic subunit (G6PC1) gene expression, an absence of glucose release from isolated hepatocytes and restored hepatic glycogen stores in the fed state in HP fed rats. These effects are mainly due to the ability of high physiological concentrations of portal blood amino acids to counteract glucagon-induced liver G6PC1 but not PEPCK gene expression. These results agree with the idea that the metabolic pathway involved in glycogen synthesis is dependent upon the pattern of nutrient availability. This nonoxidative glyconeogenic disposal pathway of gluconeogenic substrates copes with amino excess and participates in adjusting both amino acid and glucose homeostasis. In addition, the pattern of PEPCK and G6PC1 gene expression provides evidence that neither the kidney nor the small intestine participated in gluconeogenic glucose production under our experimental conditions. Moreover, the main glucose-6-phosphatase (G6Pase) isoform expressed in the small intestine is the ubiquitous isoform of G6Pase (G6PC3) rather than the G6PC1 isoform expressed in gluconeogenic organs.

Published

2007

17. The reduced energy intake of rats fed a high-protein low-carbohydrate diet explains the lower fat deposition, but macronutrient substitution accounts for the improved glycemic control.

Author

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

Subjects

Animals, Blood Glucose drug effects, Dietary Carbohydrates administration & dosage, Dietary Proteins administration & dosage, Liver drug effects, Liver metabolism, Male, Rats, Rats, Wistar, Body Composition drug effects, Dietary Carbohydrates pharmacology, Dietary Proteins pharmacology, Energy Intake, Glucose metabolism, Homeostasis drug effects

Abstract

The metabolic effect of high-protein low-carbohydrate (HP) diets on body composition and glucose homeostasis remains incompletely understood. This study assesses the respective roles of the increased protein:carbohydrate ratio (P:C) and the resulting moderate decrease in energy intake in the metabolic effects of HP diets. Rats had free access to normal (NP; 14%) or high (HP; 53%) total milk protein isoenergetic diets, or were fed the NP diet but restricted to the energy intake of HP rats (NPr), which was 89.1 +/- 9.3% that of NP rats. After 8 wk, body weight was lower in HP and NPr rats than in NP rats. In HP rats, the lower body weight was associated with a lower adipose tissue mass and a reduced proportion of large adipocytes. HP rats also had an improved oral glucose tolerance and insulin sensitivity, as assessed by the homeostatic model assessment index, compared with NPr and NP rats, and these effects were related solely to the increased P:C. These data suggest that the reduced energy intake of rats fed a high-protein, low-carbohydrate diet explains the lower fat deposition but an increased P:C per se improves glucose homeostasis.

Published

2006

18. A high-protein, high-fat, carbohydrate-free diet reduces energy intake, hepatic lipogenesis, and adiposity in rats.

Author

Pichon L, Huneau JF, Fromentin G, and Tomé D

Subjects

Animal Feed, Animals, Diet, Energy Intake, Male, Rats, Rats, Wistar, Weight Gain, Adipose Tissue physiology, Dietary Carbohydrates, Dietary Fats pharmacology, Dietary Proteins pharmacology, Liver metabolism

Abstract

The aim of this work was to determine the effects in rats of ingesting 1 of 3 diets with normal or high protein concentrations and various carbohydrate:lipid ratios on weight gain, body composition, and the development and metabolism of white adipose tissue (WAT). For this purpose, male Wistar rats were fed for 20 or 42 d a high-carbohydrate, low-fat, normal-protein diet (76, 10, and 14% of energy as carbohydrate, lipid, and protein, respectively, carbohydrate:lipid ratio (C/L) = 7.6), a normal-carbohydrate, low-fat, high-protein diet (35, 10, and 55% of energy as carbohydrate, lipid, and protein respectively, C:L = 3.5), or a carbohydrate-free, high-fat, high-protein diet (45 and 55% of energy as fat and protein, respectively, C:L = 0). Growth, food intake, body composition, WAT cellularity, and several markers of lipogenesis including fatty acid synthase and lipoprotein lipase activities were measured in adipose tissue and liver. Lowering the C:L ratio reduced the development of WAT, weight gain, body fat mass, and adipocyte size, and in rats fed the carbohydrate-free diet (C:L = 0), the total number of adipocytes in subcutaneous WAT. These reductions in adipose tissue development with decreases in the C:L ratio of the diet seemed to be due primarily to reduced hepatic lipogenesis.

Published

2006

19. A long-term high-protein diet markedly reduces adipose tissue without major side effects in Wistar male rats.

Author

Lacroix M, Gaudichon C, Martin A, Morens C, Mathé V, Tomé D, and Huneau JF

Subjects

Animals, Biomarkers, Body Composition drug effects, Body Weight drug effects, Calcium metabolism, DNA Primers, Dietary Proteins adverse effects, Glutamate-Cysteine Ligase metabolism, Glutathione metabolism, Glutathione Transferase metabolism, Hydrocortisone blood, Insulin blood, Kidney pathology, Leptin blood, Liver pathology, Male, Oxidative Stress drug effects, Oxidative Stress physiology, RNA, Messenger biosynthesis, RNA, Messenger genetics, Rats, Rats, Wistar, Reverse Transcriptase Polymerase Chain Reaction, Thiobarbituric Acid Reactive Substances metabolism, Adipose Tissue drug effects, Diet, Dietary Proteins pharmacology

Abstract

Although there is a considerable interest of high-protein, low-carbohydrate diets to manage weight control, their safety is still the subject of considerable debate. They are suspected to be detrimental to the renal and hepatic functions, calcium balance, and insulin sensitivity. However, the long-term effects of a high-protein diet on a broad range of parameters have not been investigated. We studied the effects of a high-protein diet in rats over a period of 6 mo. Forty-eight Wistar male rats received either a normal-protein (NP: 14% protein) or high-protein (HP: 50% protein) diet. Detailed body composition, plasma hormones and nutrients, liver and kidney histopathology, hepatic markers of oxidative stress and detoxification, and the calcium balance were investigated. No major alterations of the liver and kidneys were found in HP rats, whereas NP rats exhibited massive hepatic steatosis. The calcium balance was unchanged, and detoxification markers (GSH and GST) were enhanced moderately in the HP group. In contrast, HP rats showed a sharp reduction in white adipose tissue and lower basal concentrations of triglycerides, glucose, leptin, and insulin. Our study suggests that the long-term consumption of an HP diet in male rats has no deleterious effects and could prevent metabolic syndrome.

Published

2004

20. 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

21. Acute ingestion of dietary proteins improves post-exercise liver glutathione in rats in a dose-dependent relationship with their cysteine content.

Author

Mariotti F, Simbelie KL, Makarios-Lahham L, Huneau JF, Laplaize B, Tomé D, and Even PC

Subjects

Acetylcysteine administration & dosage, Animals, Cysteine administration & dosage, Glucose administration & dosage, Glutathione blood, Kinetics, Lactalbumin administration & dosage, Male, Milk Proteins administration & dosage, Myocardium chemistry, Oxidation-Reduction, Rats, Rats, Wistar, Cysteine analysis, Dietary Proteins administration & dosage, Glutathione analysis, Liver chemistry, Physical Exertion

Abstract

Dietary sulfur amino acids affect glutathione synthesis, but their acute effect under conditions of oxidative stress is unknown. We assessed the effect of the selective ingestion of alpha-lactalbumin, a cysteine-rich protein, on glutathione homeostasis before a single bout of exhaustive exercise. One hour before a 2-h run on a treadmill, untrained rats ingested a meal enriched with either milk protein (TMP), alpha-lactalbumin-enriched milk protein (alpha-LAC), glucose (GLUC) or milk protein plus 150 mg N-acetyl-L-cysteine, a pharmacologic cysteine donor (NAC). Glutathione status was monitored in the blood and measured postexercise in the liver and heart. A group of fed sedentary rats was used as a control (CON). Blood total glutathione levels declined over time in all test groups. Although postexercise heart glutathione did not differ among groups, postexercise liver glutathione was curvilinearly related to prior cysteine intake (R2=0.999, P<0.05). In alpha-LAC rats, liver glutathione was 60-80% higher than in GLUC or CON rats (P<0.05) and did not differ from that of NAC rats. Cysteine from dietary proteins exhibits a considerable, dose-dependent and acute stimulatory effect on liver glutathione during exercise but does not immediately benefit whole-body glutathione homeostasis, presumably because of an overlap between the postprandial and exercise-related states.

Published

2004

22. Metabolic evidence for adaptation to a high protein diet in rats.

Author

Jean C, Rome S, Mathé V, Huneau JF, Aattouri N, Fromentin G, Achagiotis CL, and Tomé D

Subjects

Amino Acid Transport Systems, Animals, Body Composition, Carrier Proteins metabolism, Energy Metabolism, Enzymes metabolism, Excitatory Amino Acid Transporter 2, Glutamate Plasma Membrane Transport Proteins, Intestines enzymology, Liver enzymology, Liver metabolism, Male, Metabolism, Rats, Rats, Wistar, Receptors, Glutamate metabolism, Receptors, Neurotransmitter metabolism, Weight Gain, Adaptation, Physiological physiology, Amino Acid Transport System X-AG, Dietary Proteins administration & dosage, Symporters

Abstract

This study was designed to assess the effects of long-term adaptation to a high protein diet on energy intake, body weight gain, body composition and splanchnic metabolic indicators in rats. For this purpose, adult male Wistar rats were fed either a 50 g/100 g dry matter (DM) protein diet (P50 group) or a 14 g/100 g DM protein diet (P14 group) for 21 d. These two groups were compared with a P14 pair-fed (P14-pf) group that consumed the same daily energy as the P50 group. The energy intake of the P50 group was 16 +/- 1% less than that of the P14 group (P < 0.05), and the P50 group had significantly lower body weight. The P50 group had significantly less adipose tissue compared with both P14 and P14-pf rats. The activities of the brush border membrane enzymes, neutral aminopeptidase and gamma-glutamyl transferase, were significantly higher in the P50 group than in the P14 rats. Similarly, the activities of alanine aminotransferase, arginase and serine dehydratase were significantly higher in the liver of P50 rats compared with P14 rats. Both amino acid transporter system A and X(A,G-) activities, measured in freshly isolated hepatocytes, were significantly higher in the P50 group (8- and 1.5-fold, P < 0.05, respectively) compared with the P14 group. The 1.5-fold increase in the steady-state activity of X(A,G-) was accompanied by a doubling of EAAT2 mRNA, involved in the system X(A,G-). This study provides confirmation that specific biochemical and molecular adaptive processes of the splanchnic area are involved in the response to variations in the protein content of the diet.

Published

2001

23. Dietary protein and cardiovascular risk.

Author

Mariotti F, Huneau JF, and Tomé D

Subjects

Blood Pressure drug effects, Cardiovascular Diseases prevention & control, Cholesterol metabolism, Glutathione, Humans, Oxidative Stress drug effects, Risk Factors, Cardiovascular Diseases etiology, Cholesterol blood, Dietary Proteins administration & dosage, Dietary Proteins adverse effects, Plant Proteins administration & dosage

Abstract

The relations between dietary protein and cardiovascular risk were first considered through their impact on blood cholesterol. Half a century after the first reports of an hypocholesterolemic effect of plant proteins, this subject is still a mater of debate, notably because of the difficulty in distinguishing between an independent effect of proteins and that of phytochemicals present in proteins preparations. In addition, many questions still have to be answered as to how the proteins may affect cholesterol metabolism. This review also describes the recent advances in new areas of research that have recently gained attention. Dietary proteins may affect cardiovascular risk through their effect on homocysteine, glutathione and nitric oxide. Although most of the data now available are still inconclusive, incoming results on these topics may prove important to appraise the role that the amount and/or the nature of dietary proteins play in the onset of cardiovascular disease.

Published

2001

24. A high-protein meal exceeds anabolic and catabolic capacities in rats adapted to a normal protein diet.

Author

Morens C, Gaudichon C, Metges CC, Fromentin G, Baglieri A, Even PC, Huneau JF, and Tomé D

Subjects

Animals, Dietary Proteins administration & dosage, Dietary Proteins pharmacokinetics, Male, Rats, Rats, Wistar, Tissue Distribution, Amino Acids blood, Dietary Proteins metabolism, Nitrogen urine

Abstract

The postprandial fixation of dietary nitrogen in splanchnic and peripheral tissues as well as its dynamic transfer to the nitrogen pools of the body were quantified in rats subjected to an acute augmentation of dietary protein. For this purpose, we traced the dietary protein and studied the immediate fate of exogenous nitrogen in many tissues and biological fluids. Rats were adapted to a diet providing an adequate protein level (14 g/100 g), and then fed a meal containing either 0.42 g (Group A) or 1.50 g (Group H) of [(15)N]-labeled milk protein. The amounts of exogenous nitrogen transferred to urea (0.32 +/- 0.04 vs. 2.46 +/- 0.25 mmol, respectively), incorporated in splanchnic (0.41 +/- 0.02 vs. 0.87 +/- 0.10 mmol) and peripheral (1.65 +/- 0.84 vs. 2.36 +/- 0.49 mmol) tissue protein were higher in group H than in group A. Individual plasma amino acids (AA) [(15)N]-enrichments showed that AA respond differentially to an acute augmentation of dietary intake. This work provides new descriptive and quantitative information on the metabolic fate of dietary nitrogen in the postprandial state. It highlights the higher integration of a surplus of dietary nitrogen in the tissues even if it is rapidly limited by saturation of the protein synthesis capacities. The main metabolic response remains the stimulation of AA degradation, leading to a large rise in urea production. However, both anabolic and catabolic systems are exceeded, resulting in an elevation of peripheral AA and negative feedback on the gastric emptying rate.

Published

2000

25. Gastro-jejunal digestion of soya-bean-milk protein in humans.

Author

Baglieri A, Mahe S, Zidi S, Huneau JF, Thuillier F, Marteau P, and Tome D

Subjects

Adult, Amino Acids metabolism, Calcium metabolism, Chlorides metabolism, Female, Gastric Emptying, Gastrointestinal Transit, Humans, Nitrogen metabolism, Perfusion, Potassium metabolism, Sodium metabolism, Soybean Proteins, Dietary Proteins metabolism, Digestion physiology, Duodenum metabolism, Gastric Mucosa metabolism, Plant Proteins, Dietary metabolism, Glycine max metabolism

Abstract

In order to determine how soya-bean proteins are digested and metabolized in the human intestine before colonic bacterial fermentation and to estimate their true digestibility, the gastro-jejunal behaviour of soya-bean proteins in water and in two other forms (a concentrated soya-bean-protein solution (isolate) and a drink composed of crude soya-bean proteins (soymilk)) was studied in humans. Experiments were carried out in eight healthy volunteers using a double-lumen steady-state intestinal perfusion method with polyethyleneglycol (PEG) as a non-absorbable volume marker. Gastric emptying and N and electrolyte contents of the jejunal digesta were analysed. Gastric half-emptying time (min) of the liquid phase after water ingestion (12.59 (SE 0.12)) was shorter (P < 0.05) than those for soymilk (37.74 (SE 11.57)) and isolate (36.52 (SE 11.23)). Electrolytic balances showed that for all meals, Na+, Cl- and K+ were secreted when Ca2+ was efficiently absorbed from the jejunal lumen. Gastro-jejunal N absorption for isolate and soymilk were 63 and 49% respectively, and were not significantly different from one another; after water ingestion, endogenous N was estimated to be 21 mmol. An estimate of the exogenous:endogenous values for the effluents was obtained from the amino acid compositions of soymilk and effluents after water or soymilk ingestion, indicating that 70% of the total N was exogenous and 30% endogenous. Under these conditions the endogenous fraction represented 31 mmol after soymilk ingestion and the gastro-jejunal N balance indicated that 54% of the soymilk was absorbed. This finding indicates that the true gastrojejunal digestibility of soya-bean proteins is similar to that of milk proteins.

Published

1994