对氧磷酶样APMAP维持内质网相关的脂质和脂蛋白稳态。
Paraoxonase-like APMAP maintains endoplasmic reticulum-associated lipid and lipoprotein homeostasis.
作者信息
Paul Blessy, Merta Holly, Ugrankar-Banerjee Rupali, Hensley Monica, Tran Son, Dias do Vale Goncalo, McDonald Jeffrey G, Farber Steven A, Henne W Mike
机构信息
Department of Cell Biology, UT Southwestern Medical Center, Dallas, TX 75390.
Department of Biology, Johns Hopkins University, Baltimore, MD 21218.
出版信息
bioRxiv. 2024 Jan 27:2024.01.26.577049. doi: 10.1101/2024.01.26.577049.
Oxidative stress perturbs lipid homeostasis and contributes to metabolic diseases. Though ignored compared to mitochondrial oxidation, the endoplasmic reticulum (ER) generates reactive oxygen species requiring antioxidant quality control. Using multi-organismal profiling featuring , zebrafish, and mammalian cells, here we characterize the paraoxonase-like APMAP as an ER-localized protein that promotes redox and lipid homeostasis and lipoprotein maturation. APMAP-depleted mammalian cells exhibit defective ER morphology, elevated ER and oxidative stress, lipid droplet accumulation, and perturbed ApoB-lipoprotein homeostasis. Critically, APMAP loss is rescued with chemical antioxidant NAC. Organismal APMAP depletion in perturbs fat and lipoprotein homeostasis, and zebrafish display increased vascular ApoB-containing lipoproteins, particles that are atherogenic in mammals. Lipidomics reveals altered polyunsaturated phospholipids and increased ceramides upon APMAP loss, which perturbs ApoB-lipoprotein maturation. These ApoB-associated defects are rescued by inhibiting ceramide synthesis. Collectively, we propose APMAP is an ER-localized antioxidant that promotes lipid and lipoprotein homeostasis.
氧化应激扰乱脂质稳态并导致代谢性疾病。尽管与线粒体氧化相比被忽视,但内质网(ER)会产生活性氧,需要抗氧化质量控制。通过使用以斑马鱼和哺乳动物细胞为特色的多生物体分析,我们在此将对氧磷酶样APMAP表征为一种内质网定位蛋白,它能促进氧化还原和脂质稳态以及脂蛋白成熟。APMAP缺失的哺乳动物细胞表现出内质网形态缺陷、内质网和氧化应激升高、脂滴积累以及载脂蛋白B - 脂蛋白稳态紊乱。至关重要的是,化学抗氧化剂NAC可挽救APMAP的缺失。在斑马鱼中,机体APMAP缺失会扰乱脂肪和脂蛋白稳态,并且斑马鱼显示出血管中含载脂蛋白B的脂蛋白增加,这些颗粒在哺乳动物中具有致动脉粥样硬化性。脂质组学揭示了APMAP缺失后多不饱和磷脂改变和神经酰胺增加,这扰乱了载脂蛋白B - 脂蛋白成熟。通过抑制神经酰胺合成可挽救这些与载脂蛋白B相关的缺陷。总体而言,我们提出APMAP是一种内质网定位的抗氧化剂,可促进脂质和脂蛋白稳态。
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