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载脂蛋白E缺乏与高脂饮食协同作用,通过Toll样受体4途径引发肺部脂质沉积和炎症。

Apolipoprotein E deficiency and high-fat diet cooperate to trigger lipidosis and inflammation in the lung via the toll-like receptor 4 pathway.

作者信息

Ouyang Qiufang, Huang Ziyang, Lin Huili, Ni Jingqin, Lu Huixia, Chen Xiaoqing, Wang Zhenhua, Lin Ling

机构信息

Cardiovascular Department, The Second Affiliated Hospital and Second Clinical Medical College, Fujian Medical University, Quanzhou, Fujian 362000, P.R. China.

Key Laboratory of Cardiovascular Remodeling and Function Research, Chinese Ministry of Education and Chinese Ministry of Health, Shandong University Qilu Hospital, Jinan, Shandong 250012, P.R. China.

出版信息

Mol Med Rep. 2015 Aug;12(2):2589-97. doi: 10.3892/mmr.2015.3774. Epub 2015 May 12.

DOI:10.3892/mmr.2015.3774
PMID:25975841
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4464450/
Abstract

Apolipoprotein E deficiency (ApoE(-/-)) combined with a high-fat Western-type diet (WD) is known to activate the toll-like receptor (TLR4) pathway and promote atherosclerosis. However, to date, the pathogenic effects of these conditions on the lung have not been extensively studied. Therefore, the present study examined the effects of ApoE(-/-) and a WD on lung injury and investigated the underlying mechanisms. ApoE(-/-) and wild-type mice were fed a WD or normal chow diet for 4, 12 and 24 weeks. Lung inflammation, lung cholesterol content and cytokines profiles in broncho-alveolar lavage fluid (BALF) were determined. TLR4 and its main downstream molecules were analyzed with western blot analysis. In addition, the role of the TLR4 pathway was further validated using TLR4-targeted gene silencing. The results showed that ApoE(-/-) mice developed lung lipidosis following 12 weeks of receiving a WD, as evidenced by an increased lung cholesterol content. Moreover, dependent on the time period of receiving the diet, those mice exhibited pulmonary inflammation, which was manifested by initial leukocyte recruitment (at 4 weeks), by increased alveolar septal thickness and mean linear intercept as well as elevated production of inflammation mediators (at 12 weeks), and by granuloma formation (at 24 weeks). The expression levels of TLR4, myeloid differentiation primary response 88 (MyD88) and nuclear factor kappa B were markedly upregulated in ApoE(-/-) WD mice at week 12. However, these effects were ameliorated by shRNA-mediated knockdown of TLR4. By contrast, ApoE(-/-) ND or wild-type WD mice exhibited low-grade or no inflammation and mild lipidosis. The levels of TLR4 and MyD88 in those mice showed only minor changes. In conclusion, ApoE deficiency acts synergistically with a WD to trigger lung lipidosis and inflammation at least in part via TLR4 signaling.

摘要

已知载脂蛋白E缺乏(ApoE(-/-))与高脂肪西式饮食(WD)相结合会激活Toll样受体(TLR4)通路并促进动脉粥样硬化。然而,迄今为止,这些情况对肺部的致病作用尚未得到广泛研究。因此,本研究考察了ApoE(-/-)和WD对肺损伤的影响,并探究了其潜在机制。将ApoE(-/-)小鼠和野生型小鼠分别喂食WD或正常食物12周、24周和4周。测定肺部炎症、肺胆固醇含量以及支气管肺泡灌洗液(BALF)中的细胞因子谱。通过蛋白质印迹分析来分析TLR4及其主要下游分子。此外,使用靶向TLR4的基因沉默进一步验证TLR4通路的作用。结果显示,接受WD 12周后,ApoE(-/-)小鼠出现肺脂质沉积,肺胆固醇含量增加证明了这一点。此外,根据饮食摄入的时间段不同,这些小鼠表现出肺部炎症,表现为最初的白细胞募集(4周时)、肺泡间隔厚度和平均线性截距增加以及炎症介质产生增加(12周时),以及肉芽肿形成(24周时)。在第12周时,ApoE(-/-) WD小鼠中TLR4、髓样分化初级反应蛋白88(MyD88)和核因子κB的表达水平显著上调。然而,通过shRNA介导的TLR4敲低可改善这些影响。相比之下,ApoE(-/-)正常饮食(ND)小鼠或野生型WD小鼠表现出低度炎症或无炎症以及轻度脂质沉积。这些小鼠中TLR4和MyD88的水平仅显示出轻微变化。总之,ApoE缺乏与WD协同作用,至少部分通过TLR4信号传导引发肺脂质沉积和炎症。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/c874fc6712ba/MMR-12-02-2589-g07.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/5d9f909e673a/MMR-12-02-2589-g00.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/a205ae536381/MMR-12-02-2589-g02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/14637883445d/MMR-12-02-2589-g03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/ca30cea69b78/MMR-12-02-2589-g04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/d3addf269117/MMR-12-02-2589-g05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/98e1434c237a/MMR-12-02-2589-g06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/c874fc6712ba/MMR-12-02-2589-g07.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/5d9f909e673a/MMR-12-02-2589-g00.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/a205ae536381/MMR-12-02-2589-g02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/14637883445d/MMR-12-02-2589-g03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/ca30cea69b78/MMR-12-02-2589-g04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/d3addf269117/MMR-12-02-2589-g05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/98e1434c237a/MMR-12-02-2589-g06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c3b6/4464450/c874fc6712ba/MMR-12-02-2589-g07.jpg

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