β-sitosterol alleviates high fatty acid-induced lipid accumulation in calf hepatocytes by regulating cholesterol metabolism

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Wei Yang , Yan Tian , Mingmao Yang , John Mauck , Juan J. Loor , Bin Jia , Shuang Wang , Wenwen Fan , Zhendong Li , Bingbing Zhang , Chuang Xu
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Abstract

A significant reduction in plasma concentration of cholesterol during early lactation is a common occurrence in high-yielding dairy cows. An insufficient synthesis of cholesterol in the liver has been linked to lipid accumulation caused by high concentrations of fatty acids during negative energy balance (NEB). As ruminant diets do not provide quantitative amounts of cholesterol for absorption, phytosterols such as β-sitosterol may serve to mitigate the shortfall in cholesterol within the liver during NEB. To gain mechanistic insights, primary hepatocytes were isolated from healthy female 1-day old calves for in vitro studies with or without 1.2 mM fatty acids (FA) to induce metabolic stress. Furthermore, hepatocytes were treated with 50 μM β-sitosterol with or without FA. Data were analyzed by one-way ANOVA with subsequent Bonferroni correction. Results revealed that calf hepatocytes treated with FA had greater content of non-esterified fatty acids (NEFA) and triacylglycerol (TAG), and greater mRNA and protein abundance of the lipid synthesis-related SREBF1 and FASN. In contrast, mRNA and protein of CPT1A (fatty acid oxidation) and the cholesterol metabolism-related targets SREBF2, HMGCR, ACAT2, APOA1, ABCA1 and ABCG5 was lower. Content of the antioxidant-related glutathione (GSH) and activities of superoxide dismutase (SOD) also was lower. Compared with FA challenge alone, 50 μM β-sitosterol led to greater mRNA and protein abundance of SREBF2, HMGCR, ACAT2 and ABCG5, and greater content of GSH and activity of SOD. In contrast, compared with the FA group, the mRNA and protein abundance of SREBF1 and ACC1 and the content of TAG and NEFA in the β-sitosterol + FA group were lower. Overall, β-sitosterol can promote cholesterol metabolism and reduce oxidative stress while reducing lipid accumulation in hepatocytes challenged with high concentrations of fatty acids.

β-谷甾醇通过调节胆固醇代谢缓解高脂肪酸诱导的小牛肝细胞脂质积累
泌乳早期血浆中胆固醇浓度明显降低是高产奶牛的常见现象。肝脏中胆固醇合成不足与负能量平衡(NEB)期间高浓度脂肪酸导致的脂质积累有关。由于反刍动物的日粮不能提供定量的胆固醇供吸收,植物甾醇(如 β-谷甾醇)可缓解负能量平衡期间肝脏中胆固醇的不足。为了深入了解机理,我们从健康的 1 天大雌性小牛身上分离出原代肝细胞进行体外研究,并使用或不使用 1.2mM 脂肪酸(FA)来诱导代谢压力。此外,用 50μM β-谷甾醇(含或不含脂肪酸)处理肝细胞。数据采用单因素方差分析并随后进行 Bonferroni 校正。结果显示,用 FA 处理的小牛肝细胞非酯化脂肪酸(NEFA)和三酰甘油(TAG)含量更高,与脂质合成相关的 SREBF1 和 FASN 的 mRNA 和蛋白质丰度更高。相比之下,CPT1A(脂肪酸氧化)和胆固醇代谢相关目标 SREBF2、HMGCR、ACAT2、APOA1、ABCA1 和 ABCG5 的 mRNA 和蛋白质含量较低。与抗氧化相关的谷胱甘肽(GSH)含量和超氧化物歧化酶(SOD)活性也降低了。与单独挑战 FA 组相比,50μM β-谷甾醇使 SREBF2、HMGCR、ACAT2 和 ABCG5 的 mRNA 和蛋白质丰度更高,GSH 含量和 SOD 活性更高。相反,与 FA 组相比,β-谷甾醇 + FA 组 SREBF1 和 ACC1 的 mRNA 和蛋白质丰度以及 TAG 和 NEFA 的含量较低。总之,β-谷甾醇能促进胆固醇代谢,降低氧化应激,同时减少高浓度脂肪酸挑战下肝细胞的脂质积累。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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