An NMR metabolomics approach reveals a combined-biomarkers model in a wine interventional trial with validation in free-living individuals of the PREDIMED study

Vázquez-Fresno, Rosa; Llorach, Rafaël; Urpí-Sardà, Mireia; Khymenets, Olha; Bulló, Mònica; Corella, Dolores; Fitó, Montserrat; Martínez‐González, Miguel Ángel; Estruch, Ramón; Andrés‐Lacueva, Cristina

doi:10.1007/s11306-014-0735-x

Cited by 26 publications

(38 citation statements)

References 55 publications

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“…Our findings for specific food-metabolite associations replicate $31 associations previously reported from clinical and population studies, including for fruit and juice (13)(14)(15)(48)(49)(50)(51)(52), red meat (13,(53)(54)(55), fish (15,51,56), nuts (15,51), liquor and wine (15,57), coffee (15,16,51,58,59), and multivitamin supplement (15) intake. Our serum findings parallel those reported by the Atherosclerosis Risk in Communities study (n = 1977) (51) and the Prostate, Lung, Colorectal, and Ovarian Cancer screening trial (n = 502) (15) for metabolites associated with citrus (stachydrine, chiro-inositol, scyllo-inositol, and N-methyl proline), coffee (trigonelline, quinate, paraxanthine, 1-methylxanthine, and caffeine), fish (CMPF), nuts (tryptophan betaine), alcohol (ethyl glucuronide) and multivitamins (pyridoxate and pantothenate).…”

Section: Tablesupporting

confidence: 87%

Comparing metabolite profiles of habitual diet in serum and urine

Playdon

Sampson

Cross

et al. 2016

The American Journal of Clinical Nutrition

148

124

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Background: Diet plays an important role in chronic disease etiology, but some diet-disease associations remain inconclusive because of methodologic limitations in dietary assessment. Metabolomics is a novel method for identifying objective dietary biomarkers, although it is unclear what dietary information is captured from metabolites found in serum compared with urine. Objective: We compared metabolite profiles of habitual diet measured from serum with those measured from urine. Design: We first estimated correlations between consumption of 56 foods, beverages, and supplements assessed by a food-frequency questionnaire, with 676 serum and 848 urine metabolites identified by untargeted liquid chromatography mass spectrometry, ultra-high performance liquid chromatography tandem mass spectrometry, and gas chromatography mass spectrometry in a colon adenoma case-control study (n = 125 cases and 128 controls) while adjusting for age, sex, smoking, fasting, case-control status, body mass index, physical activity, education, and caloric intake. We controlled for multiple comparisons with the use of a false discovery rate of ,0.1. Next, we created serum and urine multiple-metabolite models to predict food intake with the use of 10-fold crossvalidation least absolute shrinkage and selection operator regression for 80% of the data; predicted values were created in the remaining 20%. Finally, we compared predicted values with estimates obtained from self-reported intake for metabolites measured in serum and urine. Results: We identified metabolites associated with 46 of 56 dietary items; 417 urine and 105 serum metabolites were correlated with $1 food, beverage, or supplement. More metabolites in urine (n = 154) than in serum (n = 39) were associated uniquely with one food. We found previously unreported metabolite associations with leafy green vegetables, sugar-sweetened beverages, citrus, added sugar, red meat, shellfish, desserts, and wine. Prediction of dietary intake from multiple-metabolite profiles was similar between biofluids. Conclusions: Candidate metabolite biomarkers of habitual diet are identifiable in both serum and urine. Urine samples offer a valid alternative or complement to serum for metabolite biomarkers of diet in large-scale clinical or epidemiologic studies.Am J Clin Nutr 2016;104:776-89.

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Section: Tablesupporting

confidence: 87%

Comparing metabolite profiles of habitual diet in serum and urine

Playdon

Sampson

Cross

et al. 2016

The American Journal of Clinical Nutrition

148

124

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“…Red wine (272mL/day) vs dealcoholized red wine (272mL/day) or gin (100mL/day) (Vazquez-Fresno, et al 2012) Effect of moderate wine intake on the metabolome of subjects with CDV risk, identifying both markers of consumption and endogenous changes RCT crossover 4 wk / High-risk subjects ≥55 y without documented CHD n=61Urine 1 H NMR -Metabolites from wine metabolism: mannitol in RWA and tartrate in RWA and RWD -Endogenous modifications after wine consumption: BCAA metabolites -Ethanol robust biomarker of alcohol consumption in GIN and RWA diets -4-hydroxyphenylacetate and hippurate different effect in combination with alcohol Functional beverage containing grape skin extract vs. a control beverage as a placebo (Khymenets, et al 2015) Impact of acute and sustained consumption of a functional beverage based on grape skin extracts on the urinary metabolome by applying an untargeted metabolomic approach…”

Section: Plasmamentioning

confidence: 99%

“…Cheese UPLC-qTOF/MS Urine Indoxyl sulfate; Xanthurenic acid; Tyramine sulfate; 4-hydroxyphenylacetic acid; Isovalerylglutamic acid; Acylglycines (Hjerpsted, et al 2014) Butter UPLC-qTOF/MS Urine 3-phenyllactic; alanine, proline; pyroglutamic acid (Hjerpsted, et al 2014) Butter UPLC-MS/MS Serum Methyl palmitate (15 or 2); Pentadecanoate (15:0); 10-Undecenoate (11:1n-1) (Guertin, et al 2014) Milk GC-MS 1 H NMR Urine Lactose; Galactose; Galactonate; Allantoin; Hippurate; Galactitol; galactono-1,5-lactone (Munger, et al 2017) Milk LC-MS GC-MS FIA-MS/MS Serum/ Plasma Urine Trimethyl-N-aminovalerate; Uridine; Hydroxysphingomyelin C14:1; Diacylphosphatidylcholine C28:1 (Pallister, et al 2017) NON-ALCOHOLIC BEVERAGES Sugarsweetened beverage 1 H NMR Urine Formate; Citrulline; Taurine; Isocitrate Coffee HPLC-ESI-MS/MS Urine Caffeic; Chlorogenic acid (Mennen, et al 2006) Coffee HPLC-PDA-MS Urine Dihydrocaffeic acid-3-O-sulfate; Feruloylglycine (Stalmach, et al 2009) Coffee LC-MS/MS Plasma Dimethoxycinnamic acids (Nagy, et al 2011) Coffee UPLC-qTOF-MS Urine Atractyligenin glucuronide; Diketopiperazine cyclo(isoleucyl-prolyl); Trigonelline; Paraxanthine; 1-methylxanthine, 1-methyluric acid, 1,7-dimethyluric acid, 1,3 or 3,7 dimethyluric acid; 1,3,7-trimethyluric acid; 5-acetylamino-6-formylamino-3-methyluracil (Rothwell, et al 2014) Coffee UPLC-MS/MS Serum Trigonelline (N'-methylnicotinate); Quinate; 1-Methylxanthine; Paraxanthine; N-2-furoyl-glycine; Catechol sulfate (Guertin, et al 2014) Coffee UPLC-qTOF Urine Dihydroferulic acid sulfate (Edmands, et al 2015) 1 H NMR Urine 2-furoylglycine (Heinzmann, et al 2015) Black tea 1 H NMR Urine Hippuric acid; 1,3-dihydroxyphenyl-2-O-sulfate (Daykin, et al 2005) Black tea HPLC-ESI-MS-MS Urine Gallic; 4-O-methylgallic acids (Mennen, et al 2006) Black tea/green tea HPLC-MS/MS Urine Hippuric acid (Mulder, et al 2005) Black tea/green tea 1 H NMR Urine Hippuric acid; 1,3-dihydroxyphenyl-2-O-sulfate (Van Dorsten, et al 2006) Black tea/green tea HPLC-FTMS(n) HPLC-TOFMS-SPE-NMR Urine Hippuric acid; Hydroxybenzoic glycine conjugate; Vanilloylglycine; Pyrogallol-2-O-sulfate (van der Hooft, et al 2012) Tea UPLC-qTOF Urine 4-O-methylgallic acid (Edmands, et al 2015) Wine 1 H NMR Urine Tartrate; Ethyl glucuronide; 2,3-butanedio; Mannitol; Ethanol; 3-Methyl-2-oxovalerate (Vazquez-Fresno, et al 2015) Wine HPLC-ESI-MS/MS Urine m-coumaric acid; Gallic acid; 4-O-methylgallic acid (Mennen, et al 2006) Wine UPLC-MS/MS Plasma Urine Gallic acid and ethylgallate metabolites; Resveratrol and resveratrol microbial metabolites; 2,4-Dihydroxybenzoic acid; (epi)catechin; Valerolactone metabolites Red wine UPLC-qTOF Urine Gallic acid ethyl ester…”

Section: Plasmamentioning

confidence: 99%

Recent Advances in the Application of Metabolomics for Nutrition and Health

González-Peña

Brennan

2019

Annu. Rev. Food Sci. Technol.

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Metabolomics is the study of small molecules called metabolites in biological samples. Application of metabolomics to nutrition research has expanded in recent years, with emerging literature supporting multiple applications. Key examples include applications of metabolomics in the identification and development of objective biomarkers of dietary intake, in developing personalized nutrition strategies, and in large-scale epidemiology studies to understand the link between diet and health. In this review, we provide an overview of the current applications and identify key challenges that need to be addressed for the further development of the field. Successful development of metabolomics for nutrition research has the potential to improve dietary assessment, help deliver personalized nutrition, and enhance our understanding of the link between diet and health.

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“…Our first study in this field identified an MBP that was highly predictive of walnut intake with an area under the curve [AUC (95% CI)] of 93.4% (90.1-96.8%) and 90.2% (85.9-94.6%) in the training and validation sets, respectively (Garcia-Aloy et al, 2014). In line with these results, a "tartrate-ethyl glucuronide" model showed an AUC of 90.7% (84.5-96.4%) in the training set composed of samples from volunteers that participated in a controlled clinical trial with a nutritional intervention with wine, and an AUC of 92.4% (84.1-100%) in the validation set composed of samples assessed at baseline from a subcohort of volunteers included in the PREDIMED study with a reported wine intake of ≥180 mL/day (Vázquez-Fresno et al, 2015). Additionally, this model showed promising performance in terms of its sensitivity, which enabled discernment of an intake of one glass of wine (three carotenoids determined in plasma) and data from dietary questionnaires (energy intake) (Gross et al, 1994).…”

Section: Multi-metabolite Biomarker Modelsmentioning

confidence: 99%

“…As mentioned above, recent work from our laboratory applied a multivariate statistical approach to link dietary data with both targeted and untargeted metabolomics data to identify a series of MBPs (Garcia-Aloy et al, 2014;Urpi-Sarda et al, 2015 ;Vázquez-Fresno et al, 2015). In this approach, stepwise logistic regression analysis was used to include more than one metabolite in biomarker panels and regressed against dietary data to identify MBPs.…”

Section: Multi-metabolite Biomarker Modelsmentioning

confidence: 99%

Novel strategies for improving dietary exposure assessment: Multiple-data fusion is a more accurate measure than the traditional single-biomarker approach

Garcia-Aloy

Rabassa

Casas‐Agustench

et al. 2017

Trends in Food Science & Technology

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HIGHLIGHTS• Improvements in dietary assessment will deal with weaknesses between diet and health.• Multi-metabolite biomarker panels offer a better estimation than single biomarkers.• Untargeted metabolomics enables the proposal of new multi-metabolite biomarker panels.• A series of challenges should be addressed before panels can reach their full potential.• The combined use of biomarker panels with questionnaires will enable increasing accuracy and precision in dietary assessment. ABSTRACTBackground: Accurate measurement of food intake is the cornerstone of understanding the links between diet and optimal health status or risk of disease. The utilization of metabolomics approaches is revolutionizing the field of dietary assessment by associating metabolic profiles with intake of specific foods or dietary patterns and/or investigating human health status in nutritional trials. Combining dietary biomarkers with conventional dietary assessment methods is considered a potential strategy for tackling the complexity of dietary exposure fingerprinting. Scope and approach:We discuss existing approaches among dietary assessment methods and dietary biomarkers. A combined approach taking into consideration data from dietary questionnaires with measurements of dietary biomarkers is emphasized. Key findings and conclusions:Trends in novel strategies for improving dietary exposure assessment will be influenced by the discovery and validation of dietary exposure biomarkers.Among different strategies, multi-metabolite biomarker panels enable more reliable estimation of dietary exposure than does the traditional single-biomarker approach. Therefore, a combined approach using data from dietary questionnaires along with measurements of dietary biomarkers is considered an excellent strategy for improving dietary exposure assessment.

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An NMR metabolomics approach reveals a combined-biomarkers model in a wine interventional trial with validation in free-living individuals of the PREDIMED study

Cited by 26 publications

References 55 publications

Comparing metabolite profiles of habitual diet in serum and urine

Comparing metabolite profiles of habitual diet in serum and urine

Recent Advances in the Application of Metabolomics for Nutrition and Health

Novel strategies for improving dietary exposure assessment: Multiple-data fusion is a more accurate measure than the traditional single-biomarker approach

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