Palm-based tocotrienol-rich fraction (TRF) supplementation modulates cardiac sod1 expression, fxr target gene expression, and tauro-conjugated bile acid levels in aleptinemic mice fed a high-fat diet

IF 3.5 3区 医学 Q1 Medicine
Nur Aliah Natasha Md Shahrulnizam, Mohd Danial Mohd Efendy Goon, Sharaniza Ab Rahim, Sook Weih Lew, Siti Hamimah Sheikh Abdul Kadir, Effendi Ibrahim
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Abstract

Tocotrienol-rich fraction (TRF) has been reported to protect the heart from oxidative stress-induced inflammation. It is, however, unclear whether the protective effects of TRF against oxidative stress involve the activation of farnesoid X receptor (fxr), a bile acid receptor, and the regulation of bile acid metabolites. In the current study, we investigated the effects of TRF supplementation on antioxidant activities, expression of fxr and its target genes in cardiac tissue, and serum untargeted metabolomics of high-fat diet-fed mice. Mice were divided into high-fat diet (HFD) with or without TRF supplementation (control) for 6 weeks. At the end of the intervention, body weight (BW), waist circumference (WC), and random blood glucose were measured. Heart tissues were collected, and the gene expression of sod1, sod2, gpx, and fxr and its target genes shp and stat3 was determined. Serum was subjected to untargeted metabolomic analysis using UHPLC-Orbitrap. In comparison to the control, the WC of the TRF-treated group was higher (p >0.05) than that of the HFD-only group, in addition there was no significant difference in weight or random blood glucose level. Downregulation of sod1, sod2, and gpx expression was observed in TRF-treated mice; however, only sod1 was significant when compared to the HFD only group. The expression of cardiac shp (fxr target gene) was significantly upregulated, but stat3 was significantly downregulated in the TRF-treated group compared to the HFD-only group. Biochemical pathways found to be influenced by TRF supplementation include bile acid secretion, primary bile acid biosynthesis, and biotin and cholesterol metabolism. In conclusion, TRF supplementation in HFD-fed mice affects antioxidant activities, and more interestingly, TRF also acts as a signaling molecule that is possibly involved in several bile acid-related biochemical pathways accompanied by an increase in cardiac fxr shp expression. This study provides new insight into TRF in deregulating bile acid receptors and metabolites in high-fat diet-fed mice.
补充以棕榈为基础的富含生育三烯酚的组分(TRF)可调节以高脂肪饮食喂养的瘦肉精小鼠的心脏sod1表达、fxr靶基因表达和牛磺酸结合胆汁酸水平
据报道,富含生育三烯酚的组分(TRF)可保护心脏免受氧化应激引起的炎症。然而,TRF对氧化应激的保护作用是否涉及胆汁酸受体法尼类脂X受体(fxr)的激活和胆汁酸代谢物的调节,目前尚不清楚。在本研究中,我们研究了补充 TRF 对高脂饮食小鼠抗氧化活性、心脏组织中 fxr 及其靶基因的表达以及血清非靶代谢组学的影响。小鼠被分为补充或不补充TRF的高脂饮食(对照组),为期6周。干预结束时,测量体重(BW)、腰围(WC)和随机血糖。采集心脏组织,测定 sod1、sod2、gpx 和 fxr 及其靶基因 shp 和 stat3 的基因表达。使用 UHPLC-Orbitrap 对血清进行非靶向代谢组学分析。与对照组相比,TRF处理组的WC高于纯HFD组(P>0.05),此外,体重和随机血糖水平也无显著差异。在TRF处理组小鼠中观察到sod1、sod2和gpx的表达下调;然而,与仅含高纤维食物组相比,只有sod1的表达下调显著。与纯高密度脂蛋白饮食组相比,TRF处理组的心脏shp(fxr靶基因)表达明显上调,但stat3表达明显下调。补充TRF可影响的生化途径包括胆汁酸分泌、初级胆汁酸生物合成以及生物素和胆固醇代谢。总之,HFD喂养的小鼠补充TRF会影响抗氧化活性,更有趣的是,TRF还是一种信号分子,可能参与了多种胆汁酸相关的生化途径,并伴随着心脏fxr shp表达的增加。本研究为TRF在高脂饮食小鼠胆汁酸受体和代谢物失调中的作用提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Genes and Nutrition
Genes and Nutrition Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
7.90
自引率
0.00%
发文量
14
审稿时长
13 weeks
期刊介绍: This journal examines the relationship between genetics and nutrition, with the ultimate goal of improving human health. It publishes original research articles and review articles on preclinical research data coming largely from animal, cell culture and other experimental models as well as critical evaluations of human experimental data to help deliver products with medically proven use.
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