油酸诱导的缺陷型自噬体显示出脂质降解受损。

Oleic acid-induced defective autolysosome shows impaired lipid degradation.

机构信息

Department of Food Biotechnology, University of Science and Technology, Wanju-gun, Jeollabuk-do, 55365, Republic of Korea.

Department of Food Biotechnology, University of Science and Technology, Wanju-gun, Jeollabuk-do, 55365, Republic of Korea; Research Group of Natural Materials and Metabolism, Korea Food Research Institute, Wanju-gun, Jeollabuk-do, 55365, Republic of Korea.

出版信息

Biochem Biophys Res Commun. 2019 Jun 4;513(3):553-559. doi: 10.1016/j.bbrc.2019.04.040. Epub 2019 Apr 10.

DOI:10.1016/j.bbrc.2019.04.040

PMID:30981498

Abstract

Recent studies suggest an alternative pathway of lipid breakdown called lipophagy, which delivers lipid droplets (LDs) to lysosomes for degradation of LDs. However, molecular mechanisms regulating lipophagy are still largely unknown. In this study, we evaluated the effect of oleic acid (OA) on lipophagy in cells. We found that OA treatment results in accumulation of p62 and LC3-II proteins and reduces red fluorescence in cells stably expressing mCherry-GFP-LC3. In addition, OA inhibits the co-localization of LC3 with LAMP1 under serum-deprived condition, suggesting that OA blocks autophagosome-lysosome fusion. In the cells with ATG5 or ULK1 gene deletion, LDs did not increase upon OA treatment more than in wild type cells. However, cell starvation following OA removal resulted in reduced lipid accumulation by lipophagy and recovery of autophagy flux, suggesting that the specific condition of OA treatment and cell starvation are important for lipophagy flux activity.

摘要

最近的研究表明了一种称为脂噬的脂质分解的替代途径，它将脂质滴 (LDs) 递送至溶酶体以降解 LDs。然而，调节脂噬的分子机制在很大程度上仍然未知。在这项研究中，我们评估了油酸 (OA) 对细胞中脂噬的影响。我们发现，OA 处理导致 p62 和 LC3-II 蛋白的积累，并减少稳定表达 mCherry-GFP-LC3 的细胞中的红色荧光。此外，在血清饥饿条件下，OA 抑制 LC3 与 LAMP1 的共定位，表明 OA 阻断自噬体-溶酶体融合。在 ATG5 或 ULK1 基因缺失的细胞中，OA 处理后 LDs 的增加并不比野生型细胞多。然而，OA 去除后的细胞饥饿导致脂噬减少和自噬流恢复，表明 OA 处理和细胞饥饿的特定条件对脂噬流活性很重要。

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油酸诱导的缺陷型自噬体显示出脂质降解受损。

Oleic acid-induced defective autolysosome shows impaired lipid degradation.

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