Flaxseed oil rich in omega-3 protects aorta against inflammation and endoplasmic reticulum stress partially mediated by GPR120 receptor in obese, diabetic and dyslipidemic mice models

Flaxseed oil rich in omega-3 protects aorta against inflammation and endoplasmic reticulum stress partially mediated by GPR120 receptor in obese, diabetic and dyslipidemic mice models

The “first hit” to atherogenesis is driven by toll-like receptor 4, endoplasmic reticulum stress and ultimately metabolic dysfunction. In this study, we hypothesized that a flaxseed oil-enriched diet (FS) abolishes these inflammatory signaling pathway and restore metabolic homeostasis by activating...

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Veröffentlicht in:The Journal of nutritional biochemistry 2018-03, Vol.53, p.9-19
Hauptverfasser: Moura-Assis, Alexandre, Afonso, Milessa Silva, de Oliveira, Vanessa, Morari, Joseane, dos Santos, Gustavo Aparecido, Koike, Marcia, Lottenberg, Ana Maria, Ramos Catharino, Rodrigo, Velloso, Licio Augusto, Sanchez Ramos da Silva, Adelino, de Moura, LP, Ropelle, Eduardo Rochete, Pauli, José Rodrigo, Cintra, Dennys Esper Corrêa
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Atherogenesis
ER stress
GPR120
Inflammation
n-3 fatty acids
Nutrigenomics
Obesity
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container_end_page 19
container_issue
container_start_page 9
container_title The Journal of nutritional biochemistry
container_volume 53
creator Moura-Assis, Alexandre
Afonso, Milessa Silva
de Oliveira, Vanessa
Morari, Joseane
dos Santos, Gustavo Aparecido
Koike, Marcia
Lottenberg, Ana Maria
Ramos Catharino, Rodrigo
Velloso, Licio Augusto
Sanchez Ramos da Silva, Adelino
de Moura, LP
Ropelle, Eduardo Rochete
Pauli, José Rodrigo
Cintra, Dennys Esper Corrêa
description The “first hit” to atherogenesis is driven by toll-like receptor 4, endoplasmic reticulum stress and ultimately metabolic dysfunction. In this study, we hypothesized that a flaxseed oil-enriched diet (FS) abolishes these inflammatory signaling pathway and restore metabolic homeostasis by activating the fatty acid receptor GPR120 in aorta of obese mice. Glucose homeostasis was assessed by GTT and ITT; lipidomics was performed using a Hybrid Ion Trap-Orbitrap Mass Spectrometer; serum lipids were measured using colorimetric assays; GPR120 and infiltrating macrophages were analyzed by immunofluorescence; protein immunoprecipitation and gene expression were evaluated by Western blot and RT-PCR, respectively. There were no differences in body weight and food intake between the groups from both strains (Swiss and LDLr-KO mice). GTT and cholesterol levels were improved by FS in both mice models. Lipidomics showed an increase in ω3 (C18:3) content, meanwhile stearic acid (C18:0) was not detected in endothelial tissue in response to FS. Moreover, FS markedly decreased pro-inflammatory (IL-1β, TNF-α, pIκBα, pIKKβ) and unfolded protein response markers (ATF6 and GRP78) in aorta. In Swiss mice, GPR120 was partially involved in the ω3-mediated anti-inflammatory actions, disrupting TLR4 pathway, but not in LDLr-KO mice. Partial replacement of dietary saturated by unsaturated ω3 fatty acids contributes to inhibition of cardiovascular risk markers, pro-inflammatory cytokines and ER stress sensors and effectors in the aorta. However, downregulation of inflammation is not mediated by arterial GPR120 activation. (A) Toll-like receptor pathway. (B) Tumoral necrosis factor-receptor pathway. (C) Alpha linolenic fatty acid (ALA) binding in GPR120 (black arrow); probably binding in GPR40 and GPR119 (white arrows) and its incorporation in cell membrane (yellow phospholipids). Segmented lines show inflammatory pathways partially blocked by GPR120/β-arrestin2 pathway. [Display omitted]
doi_str_mv 10.1016/j.jnutbio.2017.09.015
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Moreover, FS markedly decreased pro-inflammatory (IL-1β, TNF-α, pIκBα, pIKKβ) and unfolded protein response markers (ATF6 and GRP78) in aorta. In Swiss mice, GPR120 was partially involved in the ω3-mediated anti-inflammatory actions, disrupting TLR4 pathway, but not in LDLr-KO mice. Partial replacement of dietary saturated by unsaturated ω3 fatty acids contributes to inhibition of cardiovascular risk markers, pro-inflammatory cytokines and ER stress sensors and effectors in the aorta. However, downregulation of inflammation is not mediated by arterial GPR120 activation. (A) Toll-like receptor pathway. (B) Tumoral necrosis factor-receptor pathway. (C) Alpha linolenic fatty acid (ALA) binding in GPR120 (black arrow); probably binding in GPR40 and GPR119 (white arrows) and its incorporation in cell membrane (yellow phospholipids). Segmented lines show inflammatory pathways partially blocked by GPR120/β-arrestin2 pathway. 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subjects Atherogenesis
ER stress
GPR120
Inflammation
n-3 fatty acids
Nutrigenomics
Obesity
title Flaxseed oil rich in omega-3 protects aorta against inflammation and endoplasmic reticulum stress partially mediated by GPR120 receptor in obese, diabetic and dyslipidemic mice models
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