饱和脂肪酸诱导原代心肌细胞内质网应激

IF 0.7 Cell Pathology Pub Date : 2015-01-01 DOI:10.1515/ersc-2015-0004
T. Haffar, Félix-Antoine Bérubé-Simard, J. Tardif, N. Bousette
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引用次数: 10

摘要

摘要摘要:简介:糖尿病是心血管疾病的主要诱因。有越来越多的证据指向心肌细胞内脂质积累作为一个整体的病因因素。在这里,我们旨在确定两种常见脂肪酸对原代心肌细胞脂质积累和细胞应激的影响。方法:我们对饱和(棕榈酸)或单不饱和(油酸)脂肪酸处理的小鼠和大鼠新生心肌细胞的脂质积累进行了生化(通过三酰基甘油酯试验和放射性标记脂肪酸摄取试验)和组织学(通过BODIPY 493/503染色)评估。采用定量逆转录聚合酶链反应(qRT-PCR)和Western blotting检测内质网(ER)应激。采用碘化丙啶染色法测定细胞活力。结果:我们发现油酸盐和棕榈酸盐均导致心肌细胞内脂质显著增加;然而,在油酸盐和棕榈酸盐处理的心肌细胞之间,BODIPY染色的定性性质有明显差异。我们还发现棕榈酸盐引起显著的凋亡细胞死亡,这与内质网应激有关。有趣的是,油酸盐和棕榈酸盐的联合使用消除了细胞死亡和内质网应激。最后,棕榈酸盐处理导致Grp78泛素化显著增加,Grp78是一种关键的代偿性ER伴侣。结论:棕榈酸盐引起原代心肌细胞内质网应激和凋亡细胞死亡,与油酸处理心肌细胞相比,这与BODIPY染色的明显差异有关。重要的是,棕榈酸酯的脂肪毒性作用与油酸酯的共同施用被废除。
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Saturated fatty acids induce endoplasmic reticulum stress in primary cardiomyocytes
Abstract Abstract: Introduction: Diabetes is a major contributor to cardiovascular disease. There is a growing body of evidence pointing towards intra-myocellular lipid accumulation as an integral etiological factor. Here we aimed to determine the effect of two common fatty acids on lipid accumulation and cellular stress in primary cardiomyocytes. Methods: We evaluated lipid accumulation biochemically (by triacylglyceride assay and radiolabeled fatty acid uptake assay) as well as histologically (by BODIPY 493/503 staining) in mouse and rat neonatal cardiomyocytes treated with saturated (palmitate) or mono-unsaturated (oleate) fatty acids. Endoplasmic reticulum (ER) stress was evaluated by quantitative reverse transcription polymerase chain reaction (qRT-PCR) and Western blotting. Cell viability was assessed by propidium iodide staining. Results: We found that both oleate and palmitate led to significant increases in intracellular lipid in cardiomyocytes; however there were distinct differences in the qualitative nature of BODIPY staining between oleate and palmitate treated cardiomyocytes. We also show that palmitate caused significant apoptotic cell death and this was associated with ER stress. Interestingly, co-administration of oleate with palmitate abolished cell death, and ER stress. Finally, palmitate treatment caused a significant increase in ubiquitination of Grp78, a key compensatory ER chaperone. Conclusion: Palmitate causes ER stress and apoptotic cell death in primary cardiomyocytes and this is associated with apparent differences in BODIPY staining compared to oleate treated cardiomyocytes. Importantly, the lipotoxic effects of palmitate are abolished with the co-administration of oleate.
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