PCSK9 induces endothelial cell autophagy by regulating the PI3K/ATK pathway in atherosclerotic coronary heart disease.

Wei-Wei Li, Ze-Ming Guo, Bing-Cai Wang, Qing-Quan Liu, Wen-An Zhao, Xiao-Lan Wei
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Abstract

Objective: Atherosclerosis is a chronic inflammatory disease of the arteries, and its pathogenesis is related to endothelial dysfunction. It has been found that the protein convertase subtilin/kexin9 type (PCSK9) plays an important role in AS, but its specific mechanism is still unclear.

Methods: In this study, we first cultured human umbilical vein endothelial cells (HUVECs) with 50 or 100μg/ml oxidized low-density lipoprotein (ox-LDL) for 24 hours to establish a coronary atherosclerosis cell model.

Results: The results showed that ox-LDL induced HUVEC injury and autophagy and upregulated PCSK9 protein expression in HUVECs in a concentration-dependent manner. Silencing PCSK9 expression with siRNA inhibited ox-LDL-induced HUVEC endothelial dysfunction, inhibited the release of inflammatory factors, promoted HUVEC proliferation and inhibited apoptosis. In addition, ox-LDL increased the expression of LC3B-I and LC3B-II and decreased the expression of p62. However, these processes are reversed by sh-PCSK9. In addition, sh-PCSK9 can inhibit PI3K, AKT and mTOR phosphorylation and promote autophagy.

Conclusion: Taken together, our research shows that silencing PCSK9 inhibits the PI3K/ATK/mTOR pathway to activate ox-LDL-induced autophagy in vascular endothelial cells, alleviating endothelial cell injury and inflammation.

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PCSK9通过调节动脉粥样硬化性冠心病中的PI3K/ATK通路诱导内皮细胞自噬。
目的:动脉粥样硬化是一种慢性动脉炎症性疾病,其发病机制与内皮功能障碍有关。研究发现,亚铁/kexin9 型蛋白转化酶(PCSK9)在动脉粥样硬化中起着重要作用,但其具体机制尚不清楚:本研究首先用 50 或 100μg/ml 氧化低密度脂蛋白(ox-LDL)培养人脐静脉内皮细胞(HUVECs)24 小时,建立冠状动脉粥样硬化细胞模型:结果表明:氧化低密度脂蛋白可诱导HUVEC损伤和自噬,并以浓度依赖性方式上调HUVEC中PCSK9蛋白的表达。用 siRNA 沉默 PCSK9 的表达可抑制 ox-LDL 诱导的 HUVEC 内皮功能障碍,抑制炎症因子的释放,促进 HUVEC 增殖并抑制细胞凋亡。此外,ox-LDL 增加了 LC3B-I 和 LC3B-II 的表达,降低了 p62 的表达。然而,这些过程被 sh-PCSK9 逆转。此外,sh-PCSK9 还能抑制 PI3K、AKT 和 mTOR 磷酸化并促进自噬:综上所述,我们的研究表明,沉默 PCSK9 可抑制 PI3K/ATK/mTOR 通路,从而激活氧化-LDL 诱导的血管内皮细胞自噬,缓解内皮细胞损伤和炎症。
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