Clustering according to urolithin metabotype explains the interindividual variability in the improvement of cardiovascular risk biomarkers in overweight‐obese individuals consuming pomegranate: A randomized clinical trial

Scope The pomegranate lipid‐lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism. Objective We aimed at investigating whether the microbially derived ellagitannin‐metabolizing phenotypes, i.e. urolithin metabotypes A, (UM‐...

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Published inMolecular nutrition & food research Vol. 61; no. 5
Main Authors González‐Sarrías, Antonio, García‐Villalba, Rocío, Romo‐Vaquero, María, Alasalvar, Cesarettin, Örem, Asim, Zafrilla, Pilar, Tomás‐Barberán, Francisco A., Selma, María V., Espín, Juan Carlos
Format Journal Article
LanguageEnglish
Published Germany Wiley Subscription Services, Inc 01.05.2017
Subjects
Adult
Aged
Apolipoproteins
Biomarkers
Biomarkers - blood
Body weight
Cardiometabolic
Cardiovascular diseases
Cardiovascular Diseases - blood
Cholesterol
Cholesterol - blood
Clinical trials
Clustering
Coumarins - pharmacology
Cross-Over Studies
Dose-Response Relationship, Drug
Double-Blind Method
EFSA
Female
Food
Gastrointestinal Microbiome - drug effects
Gastrointestinal Tract - drug effects
Gastrointestinal Tract - metabolism
Gut microbiota
Health risks
High density lipoprotein
Humans
Hydrolyzable Tannins - analysis
Hydrolyzable Tannins - pharmacology
Low density lipoprotein
Male
Metabolism
Metabotype
Middle Aged
Obesity - blood
Overweight
Overweight - blood
Phenols
Plant Extracts - pharmacology
Polyphenols - pharmacology
Punicaceae - chemistry
Risk
Risk Factors
Urolithins
Gut microbiota
Cardiometabolic
Urolithins
Metabotype
EFSA
Online AccessGet full text

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Abstract Scope The pomegranate lipid‐lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism. Objective We aimed at investigating whether the microbially derived ellagitannin‐metabolizing phenotypes, i.e. urolithin metabotypes A, (UM‐A), B (UM‐B), and 0 (UM‐0), influence the effects of pomegranate extract (PE) consumption on 18 cardiovascular risk biomarkers in healthy overweight‐obese individuals. Methods and results A double‐blind, crossover, dose–response, randomized, placebo‐controlled trial was conducted. The study (POMEcardio) consisted of two test phases (dose‐1 and dose‐2, lasting 3 weeks each) and a 3‐week washout period between each phase. Forty‐nine participants (BMI > 27 kg/m2) daily consumed one (dose‐1, 160 mg phenolics/day) or four (dose‐2, 640 mg phenolics/day) PE or placebo capsules. Notably, UM‐B individuals showed the highest baseline cardiovascular risk. After dose‐2, total cholesterol (–15.5 ± 3.7%), LDL‐cholesterol (–14.9 ± 2.1%), small LDL‐cholesterol (–47 ± 7%), non‐HDL‐cholesterol (–11.3 ± 2.5%), apolipoprotein‐B (–12 ± 2.2%), and oxidized LDL‐cholesterol –24 ± 2.5%) dose dependently decreased (P < 0.05) but only in UM‐B subjects. These effects were partially correlated with urolithin production and the increase in Gordonibacter levels. Three (50%) nonproducers (UM‐0) became producers following PE consumption. Conclusions UM clustering suggests a personalized effect of ellagitannin‐containing foods and could explain the controversial pomegranate benefits. Research on the specific role of urolithins and the microbiota associated with each UM is warranted. The high interindividual variability prevents the improvement of serum cardiovascular disease risk markers in healthy overweight‐obese subjects following pomegranate supplementation. However, urolithin metabotype clustering reveales a significant improvement of the blood lipid profile only in urolithin metabotype B individuals. This suggests a personalized effect of ellagitannin‐containing foods and could explain the controversial pomegranate benefits and the lack of European Food Safety Authority related health claims.
AbstractList ScopeThe pomegranate lipid‐lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism.ObjectiveWe aimed at investigating whether the microbially derived ellagitannin‐metabolizing phenotypes, i.e. urolithin metabotypes A, (UM‐A), B (UM‐B), and 0 (UM‐0), influence the effects of pomegranate extract (PE) consumption on 18 cardiovascular risk biomarkers in healthy overweight‐obese individuals.Methods and resultsA double‐blind, crossover, dose–response, randomized, placebo‐controlled trial was conducted. The study (POMEcardio) consisted of two test phases (dose‐1 and dose‐2, lasting 3 weeks each) and a 3‐week washout period between each phase. Forty‐nine participants (BMI > 27 kg/m2) daily consumed one (dose‐1, 160 mg phenolics/day) or four (dose‐2, 640 mg phenolics/day) PE or placebo capsules. Notably, UM‐B individuals showed the highest baseline cardiovascular risk. After dose‐2, total cholesterol (–15.5 ± 3.7%), LDL‐cholesterol (–14.9 ± 2.1%), small LDL‐cholesterol (–47 ± 7%), non‐HDL‐cholesterol (–11.3 ± 2.5%), apolipoprotein‐B (–12 ± 2.2%), and oxidized LDL‐cholesterol –24 ± 2.5%) dose dependently decreased (P < 0.05) but only in UM‐B subjects. These effects were partially correlated with urolithin production and the increase in Gordonibacter levels. Three (50%) nonproducers (UM‐0) became producers following PE consumption.ConclusionsUM clustering suggests a personalized effect of ellagitannin‐containing foods and could explain the controversial pomegranate benefits. Research on the specific role of urolithins and the microbiota associated with each UM is warranted.
The pomegranate lipid-lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism. We aimed at investigating whether the microbially derived ellagitannin-metabolizing phenotypes, i.e. urolithin metabotypes A, (UM-A), B (UM-B), and 0 (UM-0), influence the effects of pomegranate extract (PE) consumption on 18 cardiovascular risk biomarkers in healthy overweight-obese individuals. A double-blind, crossover, dose-response, randomized, placebo-controlled trial was conducted. The study (POMEcardio) consisted of two test phases (dose-1 and dose-2, lasting 3 weeks each) and a 3-week washout period between each phase. Forty-nine participants (BMI > 27 kg/m ) daily consumed one (dose-1, 160 mg phenolics/day) or four (dose-2, 640 mg phenolics/day) PE or placebo capsules. Notably, UM-B individuals showed the highest baseline cardiovascular risk. After dose-2, total cholesterol (-15.5 ± 3.7%), LDL-cholesterol (-14.9 ± 2.1%), small LDL-cholesterol (-47 ± 7%), non-HDL-cholesterol (-11.3 ± 2.5%), apolipoprotein-B (-12 ± 2.2%), and oxidized LDL-cholesterol -24 ± 2.5%) dose dependently decreased (P < 0.05) but only in UM-B subjects. These effects were partially correlated with urolithin production and the increase in Gordonibacter levels. Three (50%) nonproducers (UM-0) became producers following PE consumption. UM clustering suggests a personalized effect of ellagitannin-containing foods and could explain the controversial pomegranate benefits. Research on the specific role of urolithins and the microbiota associated with each UM is warranted.
Scope The pomegranate lipid‐lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism. Objective We aimed at investigating whether the microbially derived ellagitannin‐metabolizing phenotypes, i.e. urolithin metabotypes A, (UM‐A), B (UM‐B), and 0 (UM‐0), influence the effects of pomegranate extract (PE) consumption on 18 cardiovascular risk biomarkers in healthy overweight‐obese individuals. Methods and results A double‐blind, crossover, dose–response, randomized, placebo‐controlled trial was conducted. The study (POMEcardio) consisted of two test phases (dose‐1 and dose‐2, lasting 3 weeks each) and a 3‐week washout period between each phase. Forty‐nine participants (BMI > 27 kg/m2) daily consumed one (dose‐1, 160 mg phenolics/day) or four (dose‐2, 640 mg phenolics/day) PE or placebo capsules. Notably, UM‐B individuals showed the highest baseline cardiovascular risk. After dose‐2, total cholesterol (–15.5 ± 3.7%), LDL‐cholesterol (–14.9 ± 2.1%), small LDL‐cholesterol (–47 ± 7%), non‐HDL‐cholesterol (–11.3 ± 2.5%), apolipoprotein‐B (–12 ± 2.2%), and oxidized LDL‐cholesterol –24 ± 2.5%) dose dependently decreased (P < 0.05) but only in UM‐B subjects. These effects were partially correlated with urolithin production and the increase in Gordonibacter levels. Three (50%) nonproducers (UM‐0) became producers following PE consumption. Conclusions UM clustering suggests a personalized effect of ellagitannin‐containing foods and could explain the controversial pomegranate benefits. Research on the specific role of urolithins and the microbiota associated with each UM is warranted. The high interindividual variability prevents the improvement of serum cardiovascular disease risk markers in healthy overweight‐obese subjects following pomegranate supplementation. However, urolithin metabotype clustering reveales a significant improvement of the blood lipid profile only in urolithin metabotype B individuals. This suggests a personalized effect of ellagitannin‐containing foods and could explain the controversial pomegranate benefits and the lack of European Food Safety Authority related health claims.
Author Espín, Juan Carlos
Alasalvar, Cesarettin
Selma, María V.
Tomás‐Barberán, Francisco A.
Romo‐Vaquero, María
Zafrilla, Pilar
González‐Sarrías, Antonio
Örem, Asim
García‐Villalba, Rocío
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  surname: González‐Sarrías
  fullname: González‐Sarrías, Antonio
  organization: Research Group on Quality, Safety and Bioactivity of Plant Foods
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  surname: García‐Villalba
  fullname: García‐Villalba, Rocío
  organization: Research Group on Quality, Safety and Bioactivity of Plant Foods
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  surname: Romo‐Vaquero
  fullname: Romo‐Vaquero, María
  organization: Research Group on Quality, Safety and Bioactivity of Plant Foods
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  givenname: Cesarettin
  surname: Alasalvar
  fullname: Alasalvar, Cesarettin
  organization: Food Institute
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  givenname: Asim
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  givenname: Francisco A.
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  organization: Research Group on Quality, Safety and Bioactivity of Plant Foods
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  givenname: María V.
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  givenname: Juan Carlos
  surname: Espín
  fullname: Espín, Juan Carlos
  email: jcespin@cebas.csic.es
  organization: Research Group on Quality, Safety and Bioactivity of Plant Foods
BackLink https://www.ncbi.nlm.nih.gov/pubmed/27879044$$D View this record in MEDLINE/PubMed
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Issue 5
Keywords Gut microbiota
Cardiometabolic
Urolithins
Metabotype
EFSA
Language English
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2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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Snippet Scope The pomegranate lipid‐lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism....
The pomegranate lipid-lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins) metabolism. We...
ScopeThe pomegranate lipid‐lowering properties remain controversial, probably due to the interindividual variability in polyphenol (ellagitannins)...
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SubjectTerms Adult
Aged
Apolipoproteins
Biomarkers
Biomarkers - blood
Body weight
Cardiometabolic
Cardiovascular diseases
Cardiovascular Diseases - blood
Cholesterol
Cholesterol - blood
Clinical trials
Clustering
Coumarins - pharmacology
Cross-Over Studies
Dose-Response Relationship, Drug
Double-Blind Method
EFSA
Female
Food
Gastrointestinal Microbiome - drug effects
Gastrointestinal Tract - drug effects
Gastrointestinal Tract - metabolism
Gut microbiota
Health risks
High density lipoprotein
Humans
Hydrolyzable Tannins - analysis
Hydrolyzable Tannins - pharmacology
Low density lipoprotein
Male
Metabolism
Metabotype
Middle Aged
Obesity - blood
Overweight
Overweight - blood
Phenols
Plant Extracts - pharmacology
Polyphenols - pharmacology
Punicaceae - chemistry
Risk
Risk Factors
Urolithins
Title Clustering according to urolithin metabotype explains the interindividual variability in the improvement of cardiovascular risk biomarkers in overweight‐obese individuals consuming pomegranate: A randomized clinical trial
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fmnfr.201600830
https://www.ncbi.nlm.nih.gov/pubmed/27879044
https://www.proquest.com/docview/1920552418
Volume 61
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