Literature DB >> 27307576

EPA prevents fat mass expansion and metabolic disturbances in mice fed with a Western diet.

Alexandre Pinel1, Elodie Pitois1, Jean-Paul Rigaudiere1, Chrystele Jouve1, Sarah De Saint-Vincent1, Brigitte Laillet1, Christophe Montaurier1, Alain Huertas2, Beatrice Morio3, Frederic Capel4.   

Abstract

The impact of alpha linolenic acid (ALA), EPA, and DHA on obesity and metabolic complications was studied in mice fed a high-fat, high-sucrose (HF) diet. HF diets were supplemented with ALA, EPA, or DHA (1% w/w) and given to C57BL/6J mice for 16 weeks and to Ob/Ob mice for 6 weeks. In C57BL/6J mice, EPA reduced plasma cholesterol (-20%), limited fat mass accumulation (-23%) and adipose cell hypertrophy (-50%), and reduced plasma leptin concentration (-60%) compared with HF-fed mice. Furthermore, mice supplemented with EPA exhibited a higher insulin sensitivity (+24%) and glucose tolerance (+20%) compared with HF-fed mice. Similar effects were observed in EPA-supplemented Ob/Ob mice, although fat mass accumulation was not prevented. By contrast, in comparison with HF-fed mice, DHA did not prevent fat mass accumulation, increased plasma leptin concentration (+128%) in C57BL/6J mice, and did not improve glucose homeostasis in C57BL/6J and Ob/Ob mice. In 3T3-L1 adipocytes, DHA stimulated leptin expression whereas EPA induced adiponectin expression, suggesting that improved leptin/adiponectin balance may contribute to the protective effect of EPA. In conclusion, supplementation with EPA, but not ALA and DHA, could preserve glucose homeostasis in an obesogenic environment and limit fat mass accumulation in the early stage of weight gain.
Copyright © 2016 by the American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  adipose tissue; eicosapentaenoic acid; insulin resistance; obesity; omega-3 polyunsaturated fatty acid

Mesh:

Substances:

Year:  2016        PMID: 27307576      PMCID: PMC4959855          DOI: 10.1194/jlr.M065458

Source DB:  PubMed          Journal:  J Lipid Res        ISSN: 0022-2275            Impact factor:   5.922


  39 in total

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Authors:  Chao-Yung Wang; James K Liao
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Authors:  S C Cunnane; M J Anderson
Journal:  J Nutr       Date:  1997-01       Impact factor: 4.798

3.  Effects of ALA, EPA and DHA in high-carbohydrate, high-fat diet-induced metabolic syndrome in rats.

Authors:  Hemant Poudyal; Sunil K Panchal; Leigh C Ward; Lindsay Brown
Journal:  J Nutr Biochem       Date:  2012-09-29       Impact factor: 6.048

Review 4.  The metabolic syndrome.

Authors:  Robert H Eckel; Scott M Grundy; Paul Z Zimmet
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Journal:  J Nutr       Date:  2003-07       Impact factor: 4.798

6.  A Mouse Model of Metabolic Syndrome: Insulin Resistance, Fatty Liver and Non-Alcoholic Fatty Pancreas Disease (NAFPD) in C57BL/6 Mice Fed a High Fat Diet.

Authors:  Julio C Fraulob; Rebeca Ogg-Diamantino; Caroline Fernandes-Santos; Marcia Barbosa Aguila; Carlos A Mandarim-de-Lacerda
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8.  Correlation of the leptin:adiponectin ratio with measures of insulin resistance in non-diabetic individuals.

Authors:  F M Finucane; J Luan; N J Wareham; S J Sharp; S O'Rahilly; B Balkau; A Flyvbjerg; M Walker; K Højlund; J J Nolan; D B Savage
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Journal:  Brain Behav Immun       Date:  2019-04-24       Impact factor: 7.217

2.  Docosahexaenoic acid lowers cardiac mitochondrial enzyme activity by replacing linoleic acid in the phospholipidome.

Authors:  E Madison Sullivan; Edward Ross Pennington; Genevieve C Sparagna; Maria J Torres; P Darrell Neufer; Mitchel Harris; James Washington; Ethan J Anderson; Tonya N Zeczycki; David A Brown; Saame Raza Shaikh
Journal:  J Biol Chem       Date:  2017-11-21       Impact factor: 5.157

3.  Omega-3 polyunsaturated fatty acids attenuate inflammatory activation and alter differentiation in human adipocytes.

Authors:  Jane F Ferguson; Kailey Roberts-Lee; Cristina Borcea; Holly M Smith; Yasmeen Midgette; Rachana Shah
Journal:  J Nutr Biochem       Date:  2018-10-11       Impact factor: 6.048

4.  SPM pathway marker analysis of the brains of obese mice in the absence and presence of eicosapentaenoic acid ethyl esters.

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5.  Beneficial effects of eicosapentaenoic acid on the metabolic profile of obese female mice entails upregulation of HEPEs and increased abundance of enteric Akkermansia muciniphila.

Authors:  Anandita Pal; Shan Sun; Michael Armstrong; Jonathan Manke; Nicole Reisdorph; Victoria R Adams; Arion Kennedy; Yujiao Zu; Naima Moustaid-Moussa; Ian Carroll; Saame Raza Shaikh
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Review 6.  Mechanisms by Which Dietary Fatty Acids Regulate Mitochondrial Structure-Function in Health and Disease.

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7.  Transgenerational supplementation with eicosapentaenoic acid reduced the metabolic consequences on the whole body and skeletal muscle in mice receiving an obesogenic diet.

Authors:  Alexandre Pinel; Jean Paul Rigaudière; Chrystèle Jouve; Christophe Montaurier; Céline Jousse; Marie LHomme; Béatrice Morio; Frédéric Capel
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Review 8.  Fatty Acids Consumption: The Role Metabolic Aspects Involved in Obesity and Its Associated Disorders.

Authors:  Priscila Silva Figueiredo; Aline Carla Inada; Gabriela Marcelino; Carla Maiara Lopes Cardozo; Karine de Cássia Freitas; Rita de Cássia Avellaneda Guimarães; Alinne Pereira de Castro; Valter Aragão do Nascimento; Priscila Aiko Hiane
Journal:  Nutrients       Date:  2017-10-22       Impact factor: 5.717

9.  Polymorphisms in FFAR4 (GPR120) Gene Modulate Insulin Levels and Sensitivity after Fish Oil Supplementation.

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10.  Uncoupling protein 1-independent effects of eicosapentaenoic acid in brown adipose tissue of diet-induced obese female mice.

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