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西红花苷通过PI3K/Akt/mTOR信号通路在脑梗死中的神经保护机制:一项研究

Neuroprotective mechanism of crocin via PI3K/Akt/mTOR signaling pathway after cerebral infarction: an study.

作者信息

Zhao Ting, Lu Hui, Li Meng, Yan Qiuyue, Gu Juxian, Liu Lige

机构信息

Department of Neurology, Cangzhou Central Hospital Cangzhou 061000, Hebei, China.

出版信息

Am J Transl Res. 2022 May 15;14(5):3164-3171. eCollection 2022.

PMID:35702067
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9185057/
Abstract

OBJECTIVES

To explore the potential neuroprotective mechanism of crocin after cerebral infarction.

METHODS

The murine hippocampal neuronal cell line HT-22, was used as the study model, with a control group, OGD-group, low-dose crocin group, middle-dose crocin group, and high-dose crocin group. Except for the control-group, cells in the other groups were treated with OGD for 6 h, in which 1 μg/mL, 2 μg/mL and 5 μg/mL of crocin were added in low-dose group, medium-dose group and high-dose group, respectively. Subsequently, the OGD cells were cultured for another 6 h. CCK-8 assay was carried out to detect the cell viability of each group, flow cytometry was used to detect cell apoptosis, immunofluorescence was conducted to detect the expression of reactive oxygen species, and Western Blot was performed to detect the protein expression of p-PI3K, p-Akt, p-mTOR, LC-3 I, LC-3 II, and Beclin-1.

RESULTS

After hypoxia-reoxygenation treatment, the viability of HT22 cells was remarkably decreased, the apoptosis rate and expression of ROS were significantly increased, the protein expression of p-PI3K, p-Akt and p-mTOR were reduced, while the expression of LC-3 II/I and Beclin-1 were increased. After crocin treatment, the activity of hypoxic reoxygenated cells increased, the apoptosis rate decreased, the expression of reactive oxygen species dropped, the protein expression of p-PI3K, p-Akt and p-mTOR increased, and the expression of LC-3 II/I and Beclin-1 decreased.

CONCLUSION

At the cellular level, crocin can inhibit autophagy by activating the PI3K/Akt/mTOR pathway, and reduce the level of oxidative stress, thus playing a neuroprotective role.

摘要

目的

探讨西红花苷在脑梗死发生后潜在的神经保护机制。

方法

以小鼠海马神经元细胞系HT-22作为研究模型,分为对照组、氧糖剥夺组(OGD组)、西红花苷低剂量组、西红花苷中剂量组和西红花苷高剂量组。除对照组外,其他组细胞均进行6小时的氧糖剥夺处理,其中低剂量组、中剂量组和高剂量组分别加入1μg/mL、2μg/mL和5μg/mL的西红花苷。随后,对经氧糖剥夺处理的细胞再培养6小时。采用CCK-8法检测各组细胞活力,流式细胞术检测细胞凋亡情况,免疫荧光法检测活性氧的表达,蛋白质免疫印迹法检测p-PI3K、p-Akt、p-mTOR、LC-3 I、LC-3 II及Beclin-1的蛋白表达。

结果

缺氧复氧处理后,HT22细胞活力显著降低,细胞凋亡率及活性氧表达显著增加,p-PI3K、p-Akt和p-mTOR蛋白表达降低,而LC-3 II/I及Beclin-1表达增加。西红花苷处理后,缺氧复氧细胞活性增加,凋亡率降低,活性氧表达下降,p-PI3K、p-Akt和p-mTOR蛋白表达增加,LC-3 II/I及Beclin-1表达降低。

结论

在细胞水平上,西红花苷可通过激活PI3K/Akt/mTOR通路抑制自噬,并降低氧化应激水平,从而发挥神经保护作用。

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