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3. Can prehabilitation during neoadjuvant treatment modulate body composition in patients with gastrointestinal cancers? An open label randomized controlled trial

Author

Velho, S., Branco, M., Capitão, C., Moço, S., Abreu, C., Alves, R., Pires, F., Borges, A., Sousa, P., Cruz, R., Agostinho, L., Costa, L., Rodrigues, S., Miranda, P., Clemente, S., Lopes, F., Godinho, J., Passos Coelho, J., Teixeira, J., Luz, G., Garrido, R., Maio, R., Baracos, V., and Cravo, M.

Published
2024
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7. Metabolomics in nutrition

Author

Moco, S., primary, Ross, A., additional, Martin, F.-P.J., additional, Collino, S., additional, Godin, J.-P., additional, Rezzi, S., additional, and Kochhar, S., additional

Published
2013
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8. Contributor contact details

Author

Weimer, B.C., primary, Slupsky, C.M., additional, Wachsmuth, C.J., additional, Oefner, P.J., additional, Dettmer, K., additional, Sotelo, J., additional, Stevens, J.R., additional, Karp, P.D., additional, Whitfield, P.D., additional, Doherty, M.K., additional, Moco, S., additional, Ross, A., additional, Martin, F.-P.J., additional, Collino, S., additional, Godin, J.-P., additional, Rezzi, S., additional, Kochhar, S., additional, Ruhaak, L.R., additional, Lebrilla, C.B., additional, Frank, T., additional, Engel, K.-H., additional, Stewart, D., additional, Shepherd, L.V.T., additional, and Chin, E., additional

Published
2013
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23. Exploration of the endocannabinoid system using metabolomics

Author

Di, X., Hankemeier, T., Kohler, I., Krekels, E.H.J., Irth, H., Bouwstra, J.A., Kaddurah-Daouk, R.F., Aerts, J.M.F.G., Heitman, L.H., Moco, S., and Leiden University

Subjects
Inflammation, Cardiometabolic health, Metabolomics, Liquid chromatography - mass spectrometry, Exercise, Endocannabinoids
Abstract

To increase clinical success rate of drugs, a better understanding of drug action mechanism and disease dynamics is required. Metabolomics, which studies small molecules involved in biochemical processes in organisms, has shown to be a useful tool for this better understanding. In this thesis, we focus on the endocannabinoid system (ECS) and profiling its related metabolic pathways using liquid chromatography - mass spectrometry (LC-MS) based metabolomics techniques. The endocannabinoid system (ECS) is a signaling system involved in multiple physiological and pathological processes. Due to its wide distribution and complex network of metabolic interactions, the development of drugs targeting the ECS has seen high failure rates. To get a better understanding of the behavior of the ECS and related pathways, LC-MS platforms with wide coverage of the major ECS-related metabolites, or with high sensitivity that reaches low levels of metabolites, were developed and optimized. Furthermore, these metabolomics platforms were applied in clinical studies looking into cardiometabolic health, and revealed correlations between endogenous metabolite signaling, cardiometabolic health and the benefits of exercise.

Published
2023

24. Metabolic signatures in nutrition and health : short-term diet response, sexual dimorphism and hormone chronobiology

Author

Draper, C.F., Hankemeier, T., Greef, J. van der, Moco, S., Irth, H., Bouwstra, J., Daniel, H., Brennan, L., Pijl, H., Kloet, R. de, and Leiden University

Subjects
Proteomics, Women's health, Personalized nutrition, Metabolomics, Amino acids, Diet challenge, Vegan diet, Systems biology Post prandial, Phospholipids
Abstract

The power of personalized nutrition lies in being able to conduct clinical research on healthy people while capturing metabolic markers sensitive to the impact of environmental and metabolic stressors (e.g. diet, changing sex hormones and the menstrual cycle). Using clinical biomarkers, metabolomics, and diet interventions with intake analyses, we demonstrated the metabolic impact of vegan and animal diet interventions using fasting plasma analysis after 48 hours and using postprandial plasma analysis after meals and snacks. Sexually dimorphic responses were differentiated using proteomics and pathway analyses in two larger, sex-balanced cohorts. Finally, clinical biomarker and metabolomics analyses identified metabolic subtypes across menstrual cycle phases. Although challenges with integrating –omics technology and nutrition remain, the fundamental information generated from these research studies may provide a foundation for future novel personalized nutrition strategies.

Published
2018

26. Trigonelline is an NAD + precursor that improves muscle function during ageing and is reduced in human sarcopenia.

Author

Membrez M, Migliavacca E, Christen S, Yaku K, Trieu J, Lee AK, Morandini F, Giner MP, Stiner J, Makarov MV, Garratt ES, Vasiloglou MF, Chanvillard L, Dalbram E, Ehrlich AM, Sanchez-Garcia JL, Canto C, Karagounis LG, Treebak JT, Migaud ME, Heshmat R, Razi F, Karnani N, Ostovar A, Farzadfar F, Tay SKH, Sanders MJ, Lillycrop KA, Godfrey KM, Nakagawa T, Moco S, Koopman R, Lynch GS, Sorrentino V, and Feige JN

Subjects
Humans, Male, Mice, Animals, NAD metabolism, Caenorhabditis elegans, Aging, Muscle, Skeletal metabolism, Sarcopenia drug therapy, Sarcopenia prevention & control, Sarcopenia metabolism, Alkaloids pharmacology, Alkaloids therapeutic use, Alkaloids metabolism
Abstract

Mitochondrial dysfunction and low nicotinamide adenine dinucleotide (NAD + ) levels are hallmarks of skeletal muscle ageing and sarcopenia 1-3 , but it is unclear whether these defects result from local changes or can be mediated by systemic or dietary cues. Here we report a functional link between circulating levels of the natural alkaloid trigonelline, which is structurally related to nicotinic acid 4 , NAD + levels and muscle health in multiple species. In humans, serum trigonelline levels are reduced with sarcopenia and correlate positively with muscle strength and mitochondrial oxidative phosphorylation in skeletal muscle. Using naturally occurring and isotopically labelled trigonelline, we demonstrate that trigonelline incorporates into the NAD + pool and increases NAD + levels in Caenorhabditis elegans, mice and primary myotubes from healthy individuals and individuals with sarcopenia. Mechanistically, trigonelline does not activate GPR109A but is metabolized via the nicotinate phosphoribosyltransferase/Preiss-Handler pathway 5,6 across models. In C. elegans, trigonelline improves mitochondrial respiration and biogenesis, reduces age-related muscle wasting and increases lifespan and mobility through an NAD + -dependent mechanism requiring sirtuin. Dietary trigonelline supplementation in male mice enhances muscle strength and prevents fatigue during ageing. Collectively, we identify nutritional supplementation of trigonelline as an NAD + -boosting strategy with therapeutic potential for age-associated muscle decline., (© 2024. The Author(s).)

Published
2024
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27. Editorial: NMR-based metabolomics.

Author

Junot C, Pinu FR, van der Hooft JJJ, and Moco S

Abstract

Competing Interests: Author FP was employed by The New Zealand Institute for Plant and Food Research Ltd. JH is currently a member of the Scientific Advisory Board of NAICONS Srl., Milano, Italy, and is consulting for Corteva Agriscience, Indianapolis, IN, United States. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision.

Published
2023
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28. Metabolomics: Going Deeper, Going Broader, Going Further.

Author

Moco S and Buescher JM

Subjects
Chromatography, Liquid methods, Mass Spectrometry methods, Research Design, Ion Mobility Spectrometry methods, Metabolomics methods
Abstract

Metabolomics is a continuously dynamic field of research that is driven by demanding research questions and technological advances alike. In this review we highlight selected recent and ongoing developments in the area of mass spectrometry-based metabolomics. The field of view that can be seen through the metabolomics lens can be broadened by adoption of separation techniques such as hydrophilic interaction chromatography and ion mobility mass spectrometry (going broader). For a given biospecimen, deeper metabolomic analysis can be achieved by resolving smaller entities such as rare cell populations or even single cells using nano-LC and spatially resolved metabolomics or by extracting more useful information through improved metabolite identification in untargeted metabolomic experiments (going deeper). Integration of metabolomics with other (omics) data allows researchers to further advance in the understanding of the complex metabolic and regulatory networks in cells and model organisms (going further). Taken together, diverse fields of research from mechanistic studies to clinics to biotechnology applications profit from these technological developments., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2023
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29. Nicotinamide riboside kinases regulate skeletal muscle fiber-type specification and are rate-limiting for metabolic adaptations during regeneration.

Author

Sonntag T, Ancel S, Karaz S, Cichosz P, Jacot G, Giner MP, Sanchez-Garcia JL, Pannérec A, Moco S, Sorrentino V, Cantó C, and Feige JN

Abstract

Nicotinamide riboside kinases (NRKs) control the conversion of dietary Nicotinamide Riboside (NR) to NAD + , but little is known about their contribution to endogenous NAD + turnover and muscle plasticity during skeletal muscle growth and remodeling. Using NRK1/2 double KO (NRKdKO) mice, we investigated the influence of NRKs on NAD + metabolism and muscle homeostasis, and on the response to neurogenic muscle atrophy and regeneration following muscle injury. Muscles from NRKdKO animals have altered nicotinamide (NAM) salvage and a decrease in mitochondrial content. In single myonuclei RNAseq of skeletal muscle, NRK2 mRNA expression is restricted to type IIx muscle fibers, and perturbed NAD + turnover and mitochondrial metabolism shifts the fiber type composition of NRKdKO muscle to fast glycolytic IIB fibers. NRKdKO does not influence muscle atrophy during denervation but alters muscle repair after myofiber injury. During regeneration, muscle stem cells (MuSCs) from NRKdKO animals hyper-proliferate but fail to differentiate. NRKdKO also alters the recovery of NAD + during muscle regeneration as well as mitochondrial adaptations and extracellular matrix remodeling required for tissue repair. These metabolic perturbations result in a transient delay of muscle regeneration which normalizes during myofiber maturation at late stages of regeneration via over-compensation of anabolic IGF1-Akt signaling. Altogether, we demonstrate that NAD + synthesis controls mitochondrial metabolism and fiber type composition via NRK1/2 and is rate-limiting for myogenic commitment and mitochondrial maturation during skeletal muscle repair., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Sonntag, Ancel, Karaz, Cichosz, Jacot, Giner, Sanchez-Garcia, Pannérec, Moco, Sorrentino, Cantó and Feige.)

Published
2022
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30. Grape polyphenols decrease circulating branched chain amino acids in overfed adults.

Author

Bartova S, Madrid-Gambin F, Fernández L, Carayol J, Meugnier E, Segrestin B, Delage P, Vionnet N, Boizot A, Laville M, Vidal H, Marco S, Hager J, and Moco S

Abstract

Introduction and Aims: Dietary polyphenols have long been associated with health benefits, including the prevention of obesity and related chronic diseases. Overfeeding was shown to rapidly induce weight gain and fat mass, associated with mild insulin resistance in humans, and thus represents a suitable model of the metabolic complications resulting from obesity. We studied the effects of a polyphenol-rich grape extract supplementation on the plasma metabolome during an overfeeding intervention in adults, in two randomized parallel controlled clinical trials., Methods: Blood plasma samples from 40 normal weight to overweight male adults, submitted to a 31-day overfeeding (additional 50% of energy requirement by a high calorie-high fructose diet), given either 2 g/day grape polyphenol extract or a placebo at 0, 15, 21, and 31 days were analyzed (Lyon study). Samples from a similarly designed trial on females (20 subjects) were collected in parallel (Lausanne study). Nuclear magnetic resonance (NMR)-based metabolomics was conducted to characterize metabolome changes induced by overfeeding and associated effects from polyphenol supplementation. The clinical trials are registered under the numbers NCT02145780 and NCT02225457 at ClinicalTrials.gov., Results: Changes in plasma levels of many metabolic markers, including branched chain amino acids (BCAA), ketone bodies and glucose in both placebo as well as upon polyphenol intervention were identified in the Lyon study. Polyphenol supplementation counterbalanced levels of BCAA found to be induced by overfeeding. These results were further corroborated in the Lausanne female study., Conclusion: Administration of grape polyphenol-rich extract over 1 month period was associated with a protective metabolic effect against overfeeding in adults., Competing Interests: Authors SB, JC, JH, and SoM were employees of Nestlé Research when this study was conducted. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Bartova, Madrid-Gambin, Fernández, Carayol, Meugnier, Segrestin, Delage, Vionnet, Boizot, Laville, Vidal, Marco, Hager and Moco.)

Published
2022
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31. Nicotinamide Riboside and Dihydronicotinic Acid Riboside Synergistically Increase Intracellular NAD + by Generating Dihydronicotinamide Riboside.

Author

Ciarlo E, Joffraud M, Hayat F, Giner MP, Giroud-Gerbetant J, Sanchez-Garcia JL, Rumpler M, Moco S, Migaud ME, and Cantó C

Subjects
Animals, Mammals, Mice, Pyridinium Compounds, NAD, Niacinamide analogs & derivatives
Abstract

Through evolution, eukaryote organisms have developed the ability to use different molecules as independent precursors to generate nicotinamide adenine dinucleotide (NAD + ), an essential molecule for life. However, whether these different precursors act in an additive or complementary manner is not truly well understood. Here, we have evaluated how combinations of different NAD + precursors influence intracellular NAD + levels. We identified dihydronicotinic acid riboside (NARH) as a new NAD + precursor in hepatic cells. Second, we demonstrate how NARH, but not any other NAD + precursor, can act synergistically with nicotinamide riboside (NR) to increase NAD + levels in cultured cells and in mice. Finally, we demonstrate that the large increase in NAD + prompted by the combination of these two precursors is due to their chemical interaction and conversion to dihydronicotinamide riboside (NRH). Altogether, this work demonstrates for the first time that NARH can act as a NAD + precursor in mammalian cells and how different NAD + precursors can interact and influence each other when co-administered.

Published
2022
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32. Studying Metabolism by NMR-Based Metabolomics.

Author

Moco S

Abstract

During the past few decades, the direct analysis of metabolic intermediates in biological samples has greatly improved the understanding of metabolic processes. The most used technologies for these advances have been mass spectrometry (MS) and nuclear magnetic resonance (NMR) spectroscopy. NMR is traditionally used to elucidate molecular structures and has now been extended to the analysis of complex mixtures, as biological samples: NMR-based metabolomics. There are however other areas of small molecule biochemistry for which NMR is equally powerful. These include the quantification of metabolites (qNMR); the use of stable isotope tracers to determine the metabolic fate of drugs or nutrients, unravelling of new metabolic pathways, and flux through pathways; and metabolite-protein interactions for understanding metabolic regulation and pharmacological effects. Computational tools and resources for automating analysis of spectra and extracting meaningful biochemical information has developed in tandem and contributes to a more detailed understanding of systems biochemistry. In this review, we highlight the contribution of NMR in small molecule biochemistry, specifically in metabolic studies by reviewing the state-of-the-art methodologies of NMR spectroscopy and future directions., Competing Interests: The author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Moco.)

Published
2022
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33. A Method to Monitor the NAD + Metabolome-From Mechanistic to Clinical Applications.

Author

Giner MP, Christen S, Bartova S, Makarov MV, Migaud ME, Canto C, and Moco S

Subjects
Animals, Blood Donors, Chromatography, Liquid methods, Hep G2 Cells, Humans, Hydrophobic and Hydrophilic Interactions, Metabolomics methods, Mice, Mice, Inbred C57BL, Monitoring, Physiologic methods, Oxidation-Reduction, Pilot Projects, Plasma chemistry, Serum chemistry, Urine chemistry, Metabolome, NAD biosynthesis, Plasma metabolism, Serum metabolism, Tandem Mass Spectrometry methods, Urine physiology
Abstract

Nicotinamide adenine dinucleotide (NAD + ) and its reduced form (NADH) are coenzymes employed in hundreds of metabolic reactions. NAD + also serves as a substrate for enzymes such as sirtuins, poly(ADP-ribose) polymerases (PARPs) and ADP-ribosyl cyclases. Given the pivotal role of NAD(H) in health and disease, studying NAD + metabolism has become essential to monitor genetic- and/or drug-induced perturbations related to metabolic status and diseases (such as ageing, cancer or obesity), and its possible therapies. Here, we present a strategy based on liquid chromatography-tandem mass spectrometry (LC-MS/MS), for the analysis of the NAD + metabolome in biological samples. In this method, hydrophilic interaction chromatography (HILIC) was used to separate a total of 18 metabolites belonging to pathways leading to NAD + biosynthesis, including precursors, intermediates and catabolites. As redox cofactors are known for their instability, a sample preparation procedure was developed to handle a variety of biological matrices: cell models, rodent tissues and biofluids, as well as human biofluids (urine, plasma, serum, whole blood). For clinical applications, quantitative LC-MS/MS for a subset of metabolites was demonstrated for the analysis of the human whole blood of nine volunteers. Using this developed workflow, our methodology allows studying NAD + biology from mechanistic to clinical applications.

Published
2021
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34. DNA Damage, n-3 Long-Chain PUFA Levels and Proteomic Profile in Brazilian Children and Adolescents.

Author

Barros TT, Venancio VP, Hernandes LC, Antunes LMG, Hillesheim E, Salomão RG, Mathias MG, Coelho-Landell CA, Toffano RBD, Almada MORDV, Camelo-Junior JS, Moco S, Cominetti O, Ued FDV, Kaput J, and Monteiro JP

Subjects
Adolescent, Brazil, Child, Class I Phosphatidylinositol 3-Kinases blood, Class Ia Phosphatidylinositol 3-Kinase blood, Cross-Sectional Studies, Cyclin C blood, Cyclin-Dependent Kinase 8 blood, Female, Humans, Hydrolases blood, Inflammation metabolism, Male, Protein Kinase C beta blood, Proteomics, DNA Damage, Docosahexaenoic Acids blood, Eicosapentaenoic Acid blood, Fatty Acids, Omega-3 blood
Abstract

Fatty acids play a significant role in maintaining cellular and DNA protection and we previously found an inverse relationship between blood levels of eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) and DNA damage. The aim of this study was to explore differences in proteomic profiles, for 117 pro-inflammatory proteins, in two previously defined groups of individuals with different DNA damage and EPA and DHA levels. Healthy children and adolescents ( n = 140) aged 9 to 13 years old in an urban area of Brazil were divided by k-means cluster test into two clusters of DNA damage (tail intensity) using the comet assay (cluster 1 = 5.9% ± 1.2 and cluster 2 = 13.8% ± 3.1) in our previous study. The cluster with higher DNA damage and lower levels of DHA (6.2 ± 1.6 mg/dL; 5.4 ± 1.3 mg/dL, p = 0.003) and EPA (0.6 ± 0.2 mg/dL; 0.5 ± 0.1 mg/dL, p < 0.001) presented increased expression of the proteins CDK8-CCNC, PIK3CA-PIK3R1, KYNU, and PRKCB, which are involved in pro-inflammatory pathways. Our findings support the hypothesis that low levels of n-3 long-chain PUFA may have a less protective role against DNA damage through expression of pro-inflammatory proteins, such as CDK8-CCNC, PIK3CA-PIK3R1, KYNU, and PRKCB.

Published
2021
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35. Contribution of genetic ancestry and polygenic risk score in meeting vitamin B12 needs in healthy Brazilian children and adolescents.

Author

Fuzo CA, da Veiga Ued F, Moco S, Cominetti O, Métairon S, Pruvost S, Charpagne A, Carayol J, Torrieri R, Silva WA Jr, Descombes P, Kaput J, and Monteiro JP

Subjects
Adolescent, Age Factors, Brazil, Child, Cross-Sectional Studies, Dietary Supplements, Ethnicity, Female, Genome, Human, Genotype, Health Surveys, Humans, Male, Polymorphism, Single Nucleotide, Risk Factors, Vitamin B 12 blood, Vitamin B 12 metabolism
Abstract

Polymorphisms in genes related to the metabolism of vitamin B12 haven't been examined in a Brazilian population. To (a) determine the correlation between the local genetic ancestry components and vitamin B12 levels using ninety B12-related genes; (b) determine associations between these genes and their SNPs with vitamin B12 levels; (c) determine a polygenic risk score (PRS) using significant variants. This cross-sectional study included 168 children and adolescents, aged 9-13 years old. Total cobalamin was measured in plasma. Genotyping arrays and whole exome data were combined to yield ~ 7000 SNPs in 90 genes related to vitamin B12. The Efficient Local Ancestry Inference was used to estimate local ancestry for African (AFR), Native American, and European (EUR). The association between the genotypes and vitamin B12 levels were determined with generalized estimating equation. Vitamin B12 levels were driven by positive (EUR) and negative (AFR, AMR) correlations with genetic ancestry. A set of 36 variants were used to create a PRS that explained 42% of vitamin level variation. Vitamin B12 levels are influenced by genetic ancestry and a PRS explained almost 50% of the variation in plasma cobalamin in Brazilian children and adolescents.

Published
2021
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36. Network medicine framework shows that proximity of polyphenol targets and disease proteins predicts therapeutic effects of polyphenols.

Author

do Valle IF, Roweth HG, Malloy MW, Moco S, Barron D, Battinelli E, Loscalzo J, and Barabási AL

Abstract

Polyphenols, natural products present in plant-based foods, play a protective role against several complex diseases through their antioxidant activity and by diverse molecular mechanisms. Here we develop a network medicine framework to uncover mechanisms for the effects of polyphenols on health by considering the molecular interactions between polyphenol protein targets and proteins associated with diseases. We find that the protein targets of polyphenols cluster in specific neighbourhoods of the human interactome, whose network proximity to disease proteins is predictive of the molecule's known therapeutic effects. The methodology recovers known associations, such as the effect of epigallocatechin-3-O-gallate on type 2 diabetes, and predicts that rosmarinic acid has a direct impact on platelet function, representing a novel mechanism through which it could affect cardiovascular health. We experimentally confirm that rosmarinic acid inhibits platelet aggregation and α-granule secretion through inhibition of protein tyrosine phosphorylation, offering direct support for the predicted molecular mechanism. Our framework represents a starting point for mechanistic interpretation of the health effects underlying food-related compounds, allowing us to integrate into a predictive framework knowledge on food metabolism, bioavailability and drug interaction., (© 2021. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2021
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37. Biomarker-based validity of a food frequency questionnaire estimating intake in Brazilian children and adolescents.

Author

Hillesheim E, Toffano RBD, Barros TT, Salomão RG, Mathias MG, Coelho-Landell CA, Almada MORDV, Camarneiro JM, Camelo-Junior JS, Ued FDV, Campos-Gimenez E, Redeuil K, Giner MP, Martin FP, Montoliu I, Moco S, Kaput J, and Monteiro JP

Subjects
Adolescent, Brazil, Child, Female, Folic Acid blood, Humans, Male, Surveys and Questionnaires, Vitamins blood, beta Carotene blood, Biomarkers blood, Diet Surveys
Abstract

This study evaluated the validity of nutrient and food group intakes estimated by an FFQ against biomarkers. A 71-item semiquantitative FFQ was administered to 210 Brazilian children and adolescents aged 9-13 years. Intakes were correlated with biomarkers in plasma and red blood cells. Correlations between nutrients and their biomarkers were presented for animal protein, myristic acid (C14:0), EPA, DHA, β-carotene, folate, and vitamins B3, B5 and B6. Food groups and biomarkers were correlated as follows: fish products with EPA and DHA; milk and dairy with C14:0, pyridoxal 5'-phosphate and vitamin B12; total vegetables and dark green and orange vegetables with β-carotene; 5-methyltetrahydrofolate with green vegetables; and flour products with para-aminobenzoylglutamic acid. This FFQ is a valid tool for ranking Brazilian children and adolescents according to their intake of several nutrients and food groups.

Published
2021
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38. Augmented mitochondrial energy metabolism is an early response to chronic glucose stress in human pancreatic beta cells.

Author

Chareyron I, Christen S, Moco S, Valsesia A, Lassueur S, Dayon L, Wollheim CB, Santo Domingo J, and Wiederkehr A

Subjects
Adenosine Triphosphate metabolism, Calcium metabolism, Energy Metabolism physiology, Glucose metabolism, Humans, Metabolomics methods, Insulin-Secreting Cells metabolism, Mitochondria metabolism
Abstract

Aims/hypothesis: In islets from individuals with type 2 diabetes and in islets exposed to chronic elevated glucose, mitochondrial energy metabolism is impaired. Here, we studied early metabolic changes and mitochondrial adaptations in human beta cells during chronic glucose stress., Methods: Respiration and cytosolic ATP changes were measured in human islet cell clusters after culture for 4 days in 11.1 mmol/l glucose. Metabolomics was applied to analyse intracellular metabolite changes as a result of glucose stress conditions. Alterations in beta cell function were followed using insulin secretion assays or cytosolic calcium signalling after expression of the calcium probe YC3.6 specifically in beta cells of islet clusters., Results: At early stages of glucose stress, mitochondrial energy metabolism was augmented in contrast to the previously described mitochondrial dysfunction in beta cells from islets of diabetic donors. Following chronic glucose stress, mitochondrial respiration increased (by 52.4%, p < 0.001) and, as a consequence, the cytosolic ATP/ADP ratio in resting human pancreatic islet cells was elevated (by 27.8%, p < 0.05). Because of mitochondrial overactivation in the resting state, nutrient-induced beta cell activation was reduced. In addition, chronic glucose stress caused metabolic adaptations that resulted in the accumulation of intermediates of the glycolytic pathway, the pentose phosphate pathway and the TCA cycle; the most strongly augmented metabolite was glycerol 3-phosphate. The changes in metabolites observed are likely to be due to the inability of mitochondria to cope with continuous nutrient oversupply. To protect beta cells from chronic glucose stress, we inhibited mitochondrial pyruvate transport. Metabolite concentrations were partially normalised and the mitochondrial respiratory response to nutrients was markedly improved. Furthermore, stimulus-secretion coupling as assessed by cytosolic calcium signalling, was restored., Conclusion/interpretation: We propose that metabolic changes and associated mitochondrial overactivation are early adaptations to glucose stress, and may reflect what happens as a result of poor blood glucose control. Inhibition of mitochondrial pyruvate transport reduces mitochondrial nutrient overload and allows beta cells to recover from chronic glucose stress. Graphical abstract.

Published
2020
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39. SUCLA2 mutations cause global protein succinylation contributing to the pathomechanism of a hereditary mitochondrial disease.

Author

Gut P, Matilainen S, Meyer JG, Pällijeff P, Richard J, Carroll CJ, Euro L, Jackson CB, Isohanni P, Minassian BA, Alkhater RA, Østergaard E, Civiletto G, Parisi A, Thevenet J, Rardin MJ, He W, Nishida Y, Newman JC, Liu X, Christen S, Moco S, Locasale JW, Schilling B, Suomalainen A, and Verdin E

Subjects
Animals, Cells, Cultured, Female, Humans, Infant, Lysine metabolism, Male, Mice, Mice, Knockout, Mitochondria metabolism, Mitochondrial Diseases genetics, Mitochondrial Diseases metabolism, Mutation, Proteomics, Sirtuins deficiency, Sirtuins genetics, Sirtuins metabolism, Succinate-CoA Ligases deficiency, Succinate-CoA Ligases metabolism, Survival Analysis, Zebrafish, Acyl Coenzyme A metabolism, Mitochondrial Diseases pathology, Succinate-CoA Ligases genetics
Abstract

Mitochondrial acyl-coenzyme A species are emerging as important sources of protein modification and damage. Succinyl-CoA ligase (SCL) deficiency causes a mitochondrial encephalomyopathy of unknown pathomechanism. Here, we show that succinyl-CoA accumulates in cells derived from patients with recessive mutations in the tricarboxylic acid cycle (TCA) gene succinyl-CoA ligase subunit-β (SUCLA2), causing global protein hyper-succinylation. Using mass spectrometry, we quantify nearly 1,000 protein succinylation sites on 366 proteins from patient-derived fibroblasts and myotubes. Interestingly, hyper-succinylated proteins are distributed across cellular compartments, and many are known targets of the (NAD + )-dependent desuccinylase SIRT5. To test the contribution of hyper-succinylation to disease progression, we develop a zebrafish model of the SCL deficiency and find that SIRT5 gain-of-function reduces global protein succinylation and improves survival. Thus, increased succinyl-CoA levels contribute to the pathology of SCL deficiency through post-translational modifications.

Published
2020
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40. Resistance to lean mass gain in constitutional thinness in free-living conditions is not overpassed by overfeeding.

Author

Ling Y, Galusca B, Martin FP, Bartova S, Carayol J, Moco S, Epelbaum J, Grouselle D, Boirie Y, Montaurier C, Cuenco J, Minnion JS, Thomas T, Mure S, Hager J, Estour B, Gheldof N, and Germain N

Subjects
Adolescent, Body Composition, Energy Metabolism, Female, Humans, Male, Weight Gain, Young Adult, Social Conditions, Thinness
Abstract

Background: Constitutional thinness (CT), a non-malnourished underweight state with no eating disorders, is characterized by weight gain resistance to high fat diet. Data issued from muscle biopsies suggested blunted anabolic mechanisms in free-living state. Weight and metabolic responses to protein caloric supplementation has not been yet explored in CT., Methods: A 2 week overfeeding (additional 600 kcal, 30 g protein, 72 g carbohydrate, and 21 g fat) was performed to compare two groups of CTs (12 women and 11 men) to normal-weight controls (12 women and 10 men). Bodyweight, food intake, energy expenditure, body composition, nitrogen balance, appetite hormones profiles, and urine metabolome were monitored before and after overfeeding., Results: Before overfeeding, positive energy gap was found in both CT genders (309 ± 370 kcal in CT-F and 332 ± 709 kcal in CT-M) associated with higher relative protein intake per kilo (1.74 ± 0.32 g/kg/day in CT-F vs. 1.16 ± 0.23 in C-F, P < 0.0001; 1.56 ± 0.36 in CT-M vs. 1.22 ± 0.32 in C-M, P = 0.03), lower nitrogen (7.26 ± 2.36 g/day in CT-F vs. 11.41 ± 3.64 in C-F, P = 0.003; 9.70 ± 3.85 in CT-M vs. 14.14 ± 4.19 in C-M, P = 0.02), but higher essential amino acids urinary excretion (CT/C fold change of 1.13 for leucine and 1.14 for arginine) in free-living conditions. After overfeeding, CTs presented an accentuated positive energy gap, still higher than in controls (675 ± 540 in CTs vs. 379 ± 427 in C, P = 0.04). Increase in lean mass was induced in both controls genders but not in CTs (a trend was noticed in CT women), despite a similar nitrogen balance after overfeeding (5.06 ± 4.33 g/day in CTs vs. 4.28 ± 3.15 in controls, P = 0.49). Higher anorectic gut hormones' tone, glucagon-like peptide 1 and peptide tyrosine tyrosine, during test meal and higher snacking frequency were noticed before and after overfeeding in CTs., Conclusions: The blunted muscle energy mechanism, previously described in CTs in free-living state, is associated with basal saturated protein turn over suggested by the concordance of positive nitrogen balance and an increased urine excretion of several essential amino acids. This saturation cannot be overpassed by increasing this spontaneous high-protein intake suggesting a resistance to lean mass gain in CT phenotype., (© 2020 The Authors. Journal of Cachexia, Sarcopenia and Muscle published by John Wiley & Sons Ltd on behalf of Society on Sarcopenia, Cachexia and Wasting Disorders.)

Published
2020
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41. DNA damage is inversely associated to blood levels of DHA and EPA fatty acids in Brazilian children and adolescents.

Author

de Barros TT, Venâncio VP, Hernandes LC, Greggi Antunes LM, Hillesheim E, Salomão RG, Mathias MG, Coelho-Landell CA, Toffano RBD, Almada MORDV, Camelo- JS Junior, Moco S, Ued FDV, Kaput J, and Monteiro JP

Subjects
Adolescent, Body Mass Index, Brazil, Child, Cross-Sectional Studies, Energy Intake, Fatty Acids, Unsaturated blood, Female, Humans, Male, Riboflavin blood, Vitamin A blood, Vitamins blood, beta Carotene blood, DNA Damage, Docosahexaenoic Acids blood, Eicosapentaenoic Acid blood
Abstract

This study aimed to investigate the association between DNA damage and blood levels of docosahexaenoic acid (DHA), eicosapentaenoic acid (EPA), retinol, beta-carotene and riboflavin in Brazilian children and adolescents. Subjects (n = 140) were healthy boys and girls aged 9 to 13 years in Ribeirão Preto (SP, Brazil). Data collection included anthropometry, assessment of energy intake and blood sampling. DNA damage was evaluated by single-cell gel electrophoresis (comet assay). Principal component analysis (PCA) was used to verify associations between blood concentrations of vitamins, polyunsaturated fatty acids and DNA damage. Multiple regression analyses, k-means cluster, and analysis of covariance (ANCOVA), adjusted for confounding variables such as age, sex, energy intake, body mass index and total cholesterol (when needed), were applied to confirm the associations. PCA explained 69.4% of the inverse relationships between DNA damage and blood levels of DHA, EPA, retinol, and beta-carotene. Results were confirmed by ANCOVA and multiple regression analyses for DHA and EPA. In conclusion, omega-3-fatty acids were inversely associated with DNA damage in Brazilian children and adolescents and may be a protective factor against the development of future diseases.

Published
2020
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42. Factors affecting intake, metabolism and health benefits of phenolic acids: do we understand individual variability?

Author

Bento-Silva A, Koistinen VM, Mena P, Bronze MR, Hanhineva K, Sahlstrøm S, Kitrytė V, Moco S, and Aura AM

Subjects
Biological Availability, Food Handling methods, Gastrointestinal Microbiome, Humans, Hydroxybenzoates administration & dosage, Intestinal Mucosa metabolism, Diet methods, Hydroxybenzoates metabolism, Hydroxybenzoates pharmacology
Abstract

Introduction: Phenolic acids are important phenolic compounds widespread in foods, contributing to nutritional and organoleptic properties., Factors Affceting Individual Variability: The bioavailability of these compounds depends on their free or conjugated presence in food matrices, which is also affected by food processing. Phenolic acids undergo metabolism by the host and residing intestinal microbiota, which causes conjugations and structural modifications of the compounds. Human responses, metabolite profiles and health responses of phenolics, show considerable individual variation, which is affected by absorption, metabolism and genetic variations of subjects., Opinion: A better understanding of the gut-host interplay and microbiome biochemistry is becoming highly relevant in understanding the impact of diet and its constituents. It is common to study metabolism and health benefits separately, with some exceptions; however, it should be preferred that health responders and non-responders are studied in combination with explanatory metabolite profiles and gene variants. This approach could turn interindividual variation from a problem in human research to an asset for research on personalized nutrition.

Published
2020
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43. AlpsNMR: an R package for signal processing of fully untargeted NMR-based metabolomics.

Author

Madrid-Gambin F, Oller-Moreno S, Fernandez L, Bartova S, Giner MP, Joyce C, Ferraro F, Montoliu I, Moco S, and Marco S

Subjects
Magnetic Resonance Imaging, Magnetic Resonance Spectroscopy, Workflow, Metabolomics, Software
Abstract

Summary: Nuclear magnetic resonance (NMR)-based metabolomics is widely used to obtain metabolic fingerprints of biological systems. While targeted workflows require previous knowledge of metabolites, prior to statistical analysis, untargeted approaches remain a challenge. Computational tools dealing with fully untargeted NMR-based metabolomics are still scarce or not user-friendly. Therefore, we developed AlpsNMR (Automated spectraL Processing System for NMR), an R package that provides automated and efficient signal processing for untargeted NMR metabolomics. AlpsNMR includes spectra loading, metadata handling, automated outlier detection, spectra alignment and peak-picking, integration and normalization. The resulting output can be used for further statistical analysis. AlpsNMR proved effective in detecting metabolite changes in a test case. The tool allows less experienced users to easily implement this workflow from spectra to a ready-to-use dataset in their routines., Availability and Implementation: The AlpsNMR R package and tutorial is freely available to download from http://github.com/sipss/AlpsNMR under the MIT license., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2020
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44. Metabolic Groups Related to Blood Vitamin Levels and Inflammatory Biomarkers in Brazilian Children and Adolescents.

Author

Almada MORDV, Almeida ACF, Ued FDV, Mathias MG, Coelho-Landell CA, SalomÃo RG, Toffano RBD, Camarneiro JM, Hillesheim E, Barros TT, Camelo-Junior JS, Moco S, Kaput J, and Monteiro JP

Subjects
Adolescent, Biomarkers, Child, Cross-Sectional Studies, Folic Acid, Homocysteine, Humans, Vitamin B 12, Vitamin B Complex
Abstract

Certain B-vitamins and vitamin A may be involved in inflammatory pathways associated with homocysteine and omega-3 fatty acids. The aims of this study were (i) to determine whether different metabolic profiles of B-vitamins and vitamin A in Brazilian children and adolescents were positively or negatively related to homocysteine and omega-3 fatty acids using k-means clustering analysis, (ii) compare nutrient intakes and metabolites between the different metabolic profiles, (iii) evaluate if the statistically significant metabolites found between the metabolic groups, can predict the variation of leukotriene A4 hydrolase (LTA4H) levels, a biomarker of low-grade inflammation, in the total studied population. This cross-sectional study included 124 children and adolescents, aged 9-13 y old. Dietary intake was assessed by the food frequency questionnaire and 24-hour recall. Biomarkers for vitamins B2, B6, B12, folate and vitamin A were measured in plasma. Omega-3 fatty acids and homocysteine were measured in red blood cells (RBC). Two different metabolic profiles were found. Thirty of these individuals had overall average higher riboflavin, pyridoxal, and vitamin B12 plasma levels (metabolic group 1) compared to 94 individuals (group 2). Group 2 had lower dietary intake of vitamin B2, vitamin A, and vitamin B12 and higher RBC levels of homocysteine. EPA and DHA erythrocyte levels were not different between metabolic groups. Multiple linear regression analyses showed that blood cobalamin, riboflavin, pyridoxal and homocysteine combined, explained 9.0% of LTA4H levels variation in the total studied population. The metabolic group that had low plasma levels of riboflavin, pyridoxal, and cobalamin also had a lower dietary intake of B-vitamin and higher RBC homocysteine. The combined levels of the riboflavin, pyridoxal, cobalamin and homocysteine biomarkers can predict the variation of LTA4H in the total population studied, but it is not clear how this regulation occurs.

Published
2020
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45. Mitochondrial oxidative capacity and NAD + biosynthesis are reduced in human sarcopenia across ethnicities.

Author

Migliavacca E, Tay SKH, Patel HP, Sonntag T, Civiletto G, McFarlane C, Forrester T, Barton SJ, Leow MK, Antoun E, Charpagne A, Seng Chong Y, Descombes P, Feng L, Francis-Emmanuel P, Garratt ES, Giner MP, Green CO, Karaz S, Kothandaraman N, Marquis J, Metairon S, Moco S, Nelson G, Ngo S, Pleasants T, Raymond F, Sayer AA, Ming Sim C, Slater-Jefferies J, Syddall HE, Fang Tan P, Titcombe P, Vaz C, Westbury LD, Wong G, Yonghui W, Cooper C, Sheppard A, Godfrey KM, Lillycrop KA, Karnani N, and Feige JN

Subjects
Aged, Aged, 80 and over, Biopsy, Case-Control Studies, Energy Metabolism physiology, Humans, Jamaica, Male, Middle Aged, Mitochondria metabolism, Muscle, Skeletal cytology, Muscle, Skeletal metabolism, Oxidation-Reduction, Oxidative Phosphorylation, Oxidative Stress physiology, Proteostasis, Sarcopenia ethnology, Singapore, United Kingdom, Aging physiology, Mitochondria pathology, Muscle, Skeletal pathology, NAD biosynthesis, Sarcopenia pathology
Abstract

The causes of impaired skeletal muscle mass and strength during aging are well-studied in healthy populations. Less is known on pathological age-related muscle wasting and weakness termed sarcopenia, which directly impacts physical autonomy and survival. Here, we compare genome-wide transcriptional changes of sarcopenia versus age-matched controls in muscle biopsies from 119 older men from Singapore, Hertfordshire UK and Jamaica. Individuals with sarcopenia reproducibly demonstrate a prominent transcriptional signature of mitochondrial bioenergetic dysfunction in skeletal muscle, with low PGC-1α/ERRα signalling, and downregulation of oxidative phosphorylation and mitochondrial proteostasis genes. These changes translate functionally into fewer mitochondria, reduced mitochondrial respiratory complex expression and activity, and low NAD + levels through perturbed NAD + biosynthesis and salvage in sarcopenic muscle. We provide an integrated molecular profile of human sarcopenia across ethnicities, demonstrating a fundamental role of altered mitochondrial metabolism in the pathological loss of skeletal muscle mass and function in older people.

Published
2019
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46. Metabo groups in response to micronutrient intervention: Pilot study.

Author

Coelho-Landell CA, Salomão RG, Almada MORDV, Mathias MG, Toffano RBD, Hillesheim E, Barros TT, Camarneiro JM, Camelo-Junior JS, Rosa JC, Izumi C, Czernisz É, Moco S, Kaput J, and Monteiro JP

Abstract

Micronutrients and their metabolites are cofactors in proteins involved in lipid metabolism. The present study was a subproject of the Harmonized Micronutrient Project (ClinTrials.gov # NCT01823744). Twenty participants were randomly selected from 136 children and adolescents that consumed a daily dose of 12 vitamins and 5 minerals supplementation for 6 weeks. The 20 individuals were divided into two pools of 10 individuals, according to their lipid profile at baseline (Pool 1 with lower triglycerides, LDL, and VLDL). The individuals were analyzed at baseline, after 6 weeks of daily supplementation, and after 6 weeks of a washout period in relation to anthropometric, body composition, food intake, lipid profile, micronutrient levels, and iTRAQ proteomic data. Genetic ancestry and its association with vitamin serum levels were also determined. After supplementation, LDL levels decreased while alpha-tocopherol and pantothenic acid levels increased in pool 2; lipid profiles in pool 1 did not change but had higher plasma levels of pantothenic acid, pyridoxal, and pyridoxic acid. In pool 2, expression of some proteins increased, and expression of other ones decreased after intervention, while in pool 1, the same proteins responded inversely or did not change their levels. Plasma alpha-tocopherol and Native American genetic ancestry explained a significant fraction of LDL plasma levels at baseline and in response to the intervention. After intervention, changes in expression of alpha-1 antitrypsin, haptoglobin, Ig alpha-1 chain C region, plasma protease C1 inhibitor, alpha-1-acid glycoprotein 1, fibrinogen alpha, beta, and gamma-chain in individuals in pool 2 may be associated with levels of LDL and vitamin E. Vitamin E and Native American genetic ancestry may also be implicated in changes of vitamin E and LDL levels. The results of this pilot study must be validated in future studies with larger sample size or in in vitro studies., Competing Interests: Funding was provided by the Nestle Institute of Health Sciences (Lausanne, Switzerland) (contract reference RDHS 000054). Sofia Moco and Jim Kaput were employees at Nestlé Institute of Health Sciences and participated in the experimental design of the study and in writing the final manuscript, as well as other authors. All other authors declare no conflict of interest., (© 2019 The Authors. Food Science & Nutrition published by Wiley Periodicals, Inc.)

Published
2019
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47. Vitamin B2 and Folate Concentrations are Associated with ARA, EPA and DHA Fatty Acids in Red Blood Cells of Brazilian Children and Adolescents.

Author

Ued FV, Mathias MG, Toffano RBD, Barros TT, Almada MORV, Salomão RG, Coelho-Landell CA, Hillesheim E, Camarneiro JM, Camelo-Junior JS, Aragon DC, Moco S, Kussmann M, Kaput J, and Monteiro JP

Subjects
Adolescent, Biomarkers blood, Brazil, Child, Cross-Sectional Studies, Diet Surveys, Diet, Healthy, Erythrocytes metabolism, Fatty Acids blood, Female, Humans, Linear Models, Male, Nutritional Status, Vitamin B 12 blood, Vitamin B 6 blood, Arachidonic Acid blood, Docosahexaenoic Acids blood, Eicosapentaenoic Acid blood, Folic Acid blood, Riboflavin blood
Abstract

Vitamins B2, B6, B12, and folate are essential for methylation reactions and possibly influence the transport of polyunsaturated fatty acids in plasma and red blood cells (RBC). Associations between B-vitamin biomarkers and fatty acid (FA) profile were analyzed in Brazilian children and adolescents. This cross-sectional study included 249 children and adolescents, aged 9-13 years old. Dietary intake was assessed by the food frequency questionnaire and the healthy eating index (HEI). Biomarkers for vitamins B2, B6, B12, and folate were measured in plasma. The FA profile and the metabolites of one-carbon metabolism were measured in RBC. Associations were tested with multiple linear regression models. An increase of 1 nmol/L in vitamin B2 was associated with an increase of 0.19 mg/dL of EPA, 0.20 mg/dL of ARA, and 0.25 mg/dL of DHA in RBC. An increase of 1 ng/mL in plasma folate was associated with an increase of 0.14 mg/dL of EPA, 0.22 mg/dL of ARA, and 0.21 mg/dL of DHA in RBC. These findings highlight the importance of an adequate intake of vitamin B2 and folate in childhood, since they may improve the FA profile in RBCs and may help prevent cardiovascular disease., Competing Interests: S.M., M.K., and J.K. were employees of NIHS, part of Nestlé group, when this study was conducted. The funder contributed to the study design, analysis of samples and data, interpretation of findings, and preparation of the manuscript. J.K. is currently employed by Vydiant and M.K. is currently employed by Frontiers. Other authors do not have any conflict of interest.

Published
2019
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48. A reduced form of nicotinamide riboside defines a new path for NAD + biosynthesis and acts as an orally bioavailable NAD + precursor.

Author

Giroud-Gerbetant J, Joffraud M, Giner MP, Cercillieux A, Bartova S, Makarov MV, Zapata-Pérez R, Sánchez-García JL, Houtkooper RH, Migaud ME, Moco S, and Canto C

Subjects
Animals, Cell Line, Male, Mice, Niacinamide metabolism, Niacinamide physiology, Phosphotransferases (Alcohol Group Acceptor), Pyridinium Compounds, Rats, NAD biosynthesis, NAD metabolism, Niacinamide analogs & derivatives
Abstract

Objective: A decay in intracellular NAD + levels is one of the hallmarks of physiological decline in normal tissue functions. Accordingly, dietary supplementation with NAD + precursors can prevent, alleviate, or even reverse multiple metabolic complications and age-related disorders in diverse model organisms. Within the constellation of NAD + precursors, nicotinamide riboside (NR) has gained attention due to its potent NAD + biosynthetic effects in vivo while lacking adverse clinical effects. Nevertheless, NR is not stable in circulation, and its utilization is rate-limited by the expression of nicotinamide riboside kinases (NRKs). Therefore, there is a strong interest in identifying new effective NAD + precursors that can overcome these limitations., Methods: Through a combination of metabolomics and pharmacological approaches, we describe how NRH, a reduced form of NR, serves as a potent NAD + precursor in mammalian cells and mice., Results: NRH acts as a more potent and faster NAD + precursor than NR in mammalian cells and tissues. Despite the minor structural difference, we found that NRH uses different steps and enzymes to synthesize NAD + , thus revealing a new NRK1-independent pathway for NAD + synthesis. Finally, we provide evidence that NRH is orally bioavailable in mice and prevents cisplatin-induced acute kidney injury., Conclusions: Our data identify a new pathway for NAD + synthesis and classify NRH as a promising new therapeutic strategy to enhance NAD + levels., (Copyright © 2019 The Author(s). Published by Elsevier GmbH.. All rights reserved.)

Published
2019
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49. Endogenous nicotinamide riboside metabolism protects against diet-induced liver damage.

Author

Sambeat A, Ratajczak J, Joffraud M, Sanchez-Garcia JL, Giner MP, Valsesia A, Giroud-Gerbetant J, Valera-Alberni M, Cercillieux A, Boutant M, Kulkarni SS, Moco S, and Canto C

Subjects
Animals, Blood Glucose, DNA Damage, Disease Models, Animal, Gene Knockout Techniques, Genetic Predisposition to Disease genetics, Glucose Intolerance, Hepatocytes metabolism, Insulin Resistance, Lipid Metabolism, Liver metabolism, Liver Diseases genetics, Liver Diseases pathology, Male, Metabolic Syndrome genetics, Metabolic Syndrome prevention & control, Mice, Mice, Inbred C57BL, Mice, Knockout, NAD metabolism, Niacinamide genetics, Niacinamide metabolism, Niacinamide pharmacology, Pyridinium Compounds, Diet, High-Fat adverse effects, Liver Diseases prevention & control, Niacinamide analogs & derivatives, Phosphotransferases (Alcohol Group Acceptor) genetics, Protective Agents metabolism, Protective Agents pharmacology
Abstract

Supplementation with the NAD + precursor nicotinamide riboside (NR) ameliorates and prevents a broad array of metabolic and aging disorders in mice. However, little is known about the physiological role of endogenous NR metabolism. We have previously shown that NR kinase 1 (NRK1) is rate-limiting and essential for NR-induced NAD + synthesis in hepatic cells. To understand the relevance of hepatic NR metabolism, we generated whole body and liver-specific NRK1 knockout mice. Here, we show that NRK1 deficiency leads to decreased gluconeogenic potential and impaired mitochondrial function. Upon high-fat feeding, NRK1 deficient mice develop glucose intolerance, insulin resistance and hepatosteatosis. Furthermore, they are more susceptible to diet-induced liver DNA damage, due to compromised PARP1 activity. Our results demonstrate that endogenous NR metabolism is critical to sustain hepatic NAD + levels and hinder diet-induced metabolic damage, highlighting the relevance of NRK1 as a therapeutic target for metabolic disorders.

Published
2019
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50. Vegan and Animal Meal Composition and Timing Influence Glucose and Lipid Related Postprandial Metabolic Profiles.

Author

Draper CF, Tini G, Vassallo I, Godin JP, Su M, Jia W, Beaumont M, Moco S, and Martin FP

Subjects
Adult, Amino Acids blood, Amino Acids, Branched-Chain blood, Animals, Bile Acids and Salts blood, Cross-Over Studies, Dietary Proteins administration & dosage, Fatty Acids blood, Female, Healthy Volunteers, Humans, Male, Metabolome, Postprandial Period, Time Factors, Vegetarians, Blood Glucose metabolism, Diet, Lipids blood, Vegans
Abstract

Scope: Flexitarian dieting is increasingly associated with health benefits. The study of postprandial metabolic response to vegan and animal diets is essential to decipher how specific diet components may mediate metabolic changes., Methods and Results: A randomized, crossover, controlled vegan versus animal diet challenge is conducted on 21 healthy participants. Postprandial metabolic measurements are conducted at seven timepoints. Area under the curve analysis of the vegan diet response demonstrates higher glucose (EE 0.35), insulin (EE 0.38), triglycerides (EE 0.72), and nine amino acids at breakfast (EE 4.72-209.32); and six lower health-promoting fatty acids at lunch (EE -0.1035 to -0.13) (p < 0.05)., Conclusions: Glycemic and lipid parameters vary irrespective of diet type, demonstrating that vegan and animal meals contain health-promoting and suboptimal nutrient combinations. The vegan breakfast produces the same pattern of elevated branched chain amino acids, insulin, and glucose as the animal diet from the fasting results, reflecting the low protein load in the animal and the higher branched-chain amino acid load of the vegan breakfast. Liberalization of the vegan menu to vegetarian and the animal menu to a Nordic-based diet can result in optimal metabolic signatures for both flexitarian diet strategies in future research., (© 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2019
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