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Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity

Obesity is a global pandemic, but there is yet no effective measure to control it. Recent metabolomics studies have identified a signature of altered amino acid profiles to be associated with obesity, but it is unclear whether these findings have actionable clinical potential. The aims of this study...

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Autores principales: Liu, Ming, Huang, Yiheng, Zhang, Hongwei, Aitken, Dawn, Nevitt, Michael C., Rockel, Jason S., Pelletier, Jean-Pierre, Lewis, Cora E., Torner, James, Rampersaud, Yoga Raja, Perruccio, Anthony V., Mahomed, Nizar N., Furey, Andrew, Randell, Edward W., Rahman, Proton, Sun, Guang, Martel-Pelletier, Johanne, Kapoor, Mohit, Jones, Graeme, Felson, David, Qi, Dake, Zhai, Guangju
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9030079/
https://www.ncbi.nlm.nih.gov/pubmed/35448521
http://dx.doi.org/10.3390/metabo12040334
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author Liu, Ming
Huang, Yiheng
Zhang, Hongwei
Aitken, Dawn
Nevitt, Michael C.
Rockel, Jason S.
Pelletier, Jean-Pierre
Lewis, Cora E.
Torner, James
Rampersaud, Yoga Raja
Perruccio, Anthony V.
Mahomed, Nizar N.
Furey, Andrew
Randell, Edward W.
Rahman, Proton
Sun, Guang
Martel-Pelletier, Johanne
Kapoor, Mohit
Jones, Graeme
Felson, David
Qi, Dake
Zhai, Guangju
author_facet Liu, Ming
Huang, Yiheng
Zhang, Hongwei
Aitken, Dawn
Nevitt, Michael C.
Rockel, Jason S.
Pelletier, Jean-Pierre
Lewis, Cora E.
Torner, James
Rampersaud, Yoga Raja
Perruccio, Anthony V.
Mahomed, Nizar N.
Furey, Andrew
Randell, Edward W.
Rahman, Proton
Sun, Guang
Martel-Pelletier, Johanne
Kapoor, Mohit
Jones, Graeme
Felson, David
Qi, Dake
Zhai, Guangju
author_sort Liu, Ming
collection PubMed
description Obesity is a global pandemic, but there is yet no effective measure to control it. Recent metabolomics studies have identified a signature of altered amino acid profiles to be associated with obesity, but it is unclear whether these findings have actionable clinical potential. The aims of this study were to reveal the metabolic alterations of obesity and to explore potential strategies to mitigate obesity. We performed targeted metabolomic profiling of the plasma/serum samples collected from six independent cohorts and conducted an individual data meta-analysis of metabolomics for body mass index (BMI) and obesity. Based on the findings, we hypothesized that restriction of branched-chain amino acids (BCAAs), phenylalanine, or tryptophan may prevent obesity and tested our hypothesis in a dietary restriction trial with eight groups of 4-week-old male C57BL/6J mice (n = 5/group) on eight different types of diets, respectively, for 16 weeks. A total of 3397 individuals were included in the meta-analysis. The mean BMI was 30.7 ± 6.1 kg/m(2), and 49% of participants were obese. Fifty-eight metabolites were associated with BMI and obesity (all p ≤ 2.58 × 10(−4)), linked to alterations of the BCAA, phenylalanine, tryptophan, and phospholipid metabolic pathways. The restriction of BCAAs within a high-fat diet (HFD) maintained the mice’s weight, fat and lean volume, subcutaneous and visceral adipose tissue weight, and serum glucose and insulin at levels similar to those in the standard chow group, and prevented obesity, adipocyte hypertrophy, adipose inflammation, and insulin resistance induced by HFD. Our data suggest that four metabolic pathways, BCAA, phenylalanine, tryptophan, and phospholipid metabolic pathways, are altered in obesity and restriction of BCAAs within a HFD can prevent the development of obesity and insulin resistance in mice, providing a promising strategy to potentially mitigate diet-induced obesity.
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spelling pubmed-90300792022-04-23 Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity Liu, Ming Huang, Yiheng Zhang, Hongwei Aitken, Dawn Nevitt, Michael C. Rockel, Jason S. Pelletier, Jean-Pierre Lewis, Cora E. Torner, James Rampersaud, Yoga Raja Perruccio, Anthony V. Mahomed, Nizar N. Furey, Andrew Randell, Edward W. Rahman, Proton Sun, Guang Martel-Pelletier, Johanne Kapoor, Mohit Jones, Graeme Felson, David Qi, Dake Zhai, Guangju Metabolites Article Obesity is a global pandemic, but there is yet no effective measure to control it. Recent metabolomics studies have identified a signature of altered amino acid profiles to be associated with obesity, but it is unclear whether these findings have actionable clinical potential. The aims of this study were to reveal the metabolic alterations of obesity and to explore potential strategies to mitigate obesity. We performed targeted metabolomic profiling of the plasma/serum samples collected from six independent cohorts and conducted an individual data meta-analysis of metabolomics for body mass index (BMI) and obesity. Based on the findings, we hypothesized that restriction of branched-chain amino acids (BCAAs), phenylalanine, or tryptophan may prevent obesity and tested our hypothesis in a dietary restriction trial with eight groups of 4-week-old male C57BL/6J mice (n = 5/group) on eight different types of diets, respectively, for 16 weeks. A total of 3397 individuals were included in the meta-analysis. The mean BMI was 30.7 ± 6.1 kg/m(2), and 49% of participants were obese. Fifty-eight metabolites were associated with BMI and obesity (all p ≤ 2.58 × 10(−4)), linked to alterations of the BCAA, phenylalanine, tryptophan, and phospholipid metabolic pathways. The restriction of BCAAs within a high-fat diet (HFD) maintained the mice’s weight, fat and lean volume, subcutaneous and visceral adipose tissue weight, and serum glucose and insulin at levels similar to those in the standard chow group, and prevented obesity, adipocyte hypertrophy, adipose inflammation, and insulin resistance induced by HFD. Our data suggest that four metabolic pathways, BCAA, phenylalanine, tryptophan, and phospholipid metabolic pathways, are altered in obesity and restriction of BCAAs within a HFD can prevent the development of obesity and insulin resistance in mice, providing a promising strategy to potentially mitigate diet-induced obesity. MDPI 2022-04-07 /pmc/articles/PMC9030079/ /pubmed/35448521 http://dx.doi.org/10.3390/metabo12040334 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Liu, Ming
Huang, Yiheng
Zhang, Hongwei
Aitken, Dawn
Nevitt, Michael C.
Rockel, Jason S.
Pelletier, Jean-Pierre
Lewis, Cora E.
Torner, James
Rampersaud, Yoga Raja
Perruccio, Anthony V.
Mahomed, Nizar N.
Furey, Andrew
Randell, Edward W.
Rahman, Proton
Sun, Guang
Martel-Pelletier, Johanne
Kapoor, Mohit
Jones, Graeme
Felson, David
Qi, Dake
Zhai, Guangju
Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity
title Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity
title_full Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity
title_fullStr Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity
title_full_unstemmed Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity
title_short Restricting Branched-Chain Amino Acids within a High-Fat Diet Prevents Obesity
title_sort restricting branched-chain amino acids within a high-fat diet prevents obesity
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9030079/
https://www.ncbi.nlm.nih.gov/pubmed/35448521
http://dx.doi.org/10.3390/metabo12040334
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