甘豆灵通过 PI3K/Akt/FoxO1 和 Sirt1/FoxO1 信号通路减轻肝豆状核变性大鼠模型的神经损伤，抑制自噬。

Gandouling alleviates nerve injury through PI3K/Akt/FoxO1 and Sirt1/FoxO1 signaling pathway to inhibit autophagy in the rats model of Wilson's disease.

机构信息

Institute of Pharmaceutical Department, The First Affiliated Hospital of Anhui University of Traditional Chinese Medicine, Hefei, P. R. China.

Institute of school of pharmacy, Anhui University of Chinese Medicine, Hefei, P. R. China.

出版信息

Brain Behav. 2023 Dec;13(12):e3325. doi: 10.1002/brb3.3325. Epub 2023 Nov 27.

DOI:10.1002/brb3.3325

PMID:38010098

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10726812/

Abstract

INTRODUCTION

Previous studies have shown that Gandouling (GDL) may alleviate the nerve damage caused by Wilson's disease (WD) by inhibiting the autophagy of nerve cell mitochondria. However, its mechanisms are still unclear. Revealing the therapeutic mechanism of GDL is beneficial for its clinical application and provides theoretical support for the development of new formulations for treating WD.

METHOD

This time we found that the oxidative stress level in the body of the copper-overloaded WD rates increased, neurons in the hippocampus were damaged, and autophagy occurred. GDL reversed these situations and significantly improved the learning, memory, and spatial cognitive abilities of the high-copper-loaded WD rates. After GDL intervention, the expression of phosphatidylinositol-3 kinase (PI3K), phosphorylated serine-threonine protein kinase (AKT), and phosphorylated forkhead box protein O1 (FoxO1) significantly increased, whereas FoxO1 in the nucleus decreased and phosphorylated FoxO1 in the cytoplasm also significantly raised. In addition, the expression of Sirt1 significantly declined, and Ac-FoxO1 in the nucleus also significantly increased.

RESULTS

These data indicated that GDL may promote the phosphorylation of FoxO1 and promote its nucleation by activating the PI3K/AKT/FoxO1 signaling pathway and inhibit Ac-FoxO1 hydrolysis in the nucleus through the Sirt1/FoxO1 signaling pathway to suppress the transcriptional activity of FoxO1.

CONCLUSION

Furthermore, it inhibited the expression of autophagy genes Atg12 and Gabarapl1. In summary, our work provides new insights into the potential mechanisms of GDL repairing WD neuronal damage through autophagy pathways.

摘要

简介

先前的研究表明，贯叶连翘（GDL）可能通过抑制神经细胞线粒体自噬来减轻肝豆状核变性（WD）引起的神经损伤。然而，其机制尚不清楚。揭示 GDL 的治疗机制有利于其临床应用，并为治疗 WD 的新制剂的开发提供理论支持。

方法

此次我们发现，铜过载 WD 大鼠体内的氧化应激水平升高，海马神经元受损，发生自噬。GDL 逆转了这些情况，并显著改善了高铜负载 WD 大鼠的学习、记忆和空间认知能力。在 GDL 干预后，磷酸肌醇-3 激酶（PI3K）、磷酸丝氨酸-苏氨酸蛋白激酶（AKT）和磷酸叉头框蛋白 O1（FoxO1）的表达显著增加，而核内 FoxO1 减少，细胞质中磷酸化 FoxO1 也显著增加。此外，Sirt1 的表达显著下降，核内 Ac-FoxO1 也显著增加。

结果

这些数据表明，GDL 可能通过激活 PI3K/AKT/FoxO1 信号通路促进 FoxO1 的磷酸化，并促进其核形成，同时通过 Sirt1/FoxO1 信号通路抑制核内 Ac-FoxO1 的水解，从而抑制 FoxO1 的转录活性。此外，它还抑制了自噬基因 Atg12 和 Gabarapl1 的表达。总之，我们的工作为 GDL 通过自噬途径修复 WD 神经元损伤的潜在机制提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/aed8/10726812/9d26147212de/BRB3-13-e3325-g004.jpg

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甘豆灵通过 PI3K/Akt/FoxO1 和 Sirt1/FoxO1 信号通路减轻肝豆状核变性大鼠模型的神经损伤，抑制自噬。

Gandouling alleviates nerve injury through PI3K/Akt/FoxO1 and Sirt1/FoxO1 signaling pathway to inhibit autophagy in the rats model of Wilson's disease.

机构信息

出版信息

INTRODUCTION

METHOD

RESULTS

CONCLUSION

简介

方法

结果

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