基于网络药理学结合细胞实验的荜茇酰胺生物碱抗糖尿病作用及分子机制

Anti-Diabetic Effects and Molecular Mechanisms of Amide Alkaloids from Piper longum Based on Network Pharmacology Integrated with Cellular Assays.

作者信息

Gou Guang-Hui, Liu Liu, Abdubakiev Sardorbek, Xin Xue-Lei, Akber Aisa Haji, Li Jun

机构信息

State Key Laboratory Basis of Xinjiang Indigenous Medicinal Plants Resource Utilization and Key Laboratory of Plants Resources and Chemistry of Arid Zone, Xinjiang Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, South Beijing Road 40-1, Urumqi 830011, Xinjiang, P. R. China.

University of Chinese Academy of Sciences, Beijing, 100039, P. R. China.

出版信息

Chem Biodivers. 2023 Jan;20(1):e202200904. doi: 10.1002/cbdv.202200904. Epub 2022 Dec 15.

DOI:10.1002/cbdv.202200904

PMID:36469428

Abstract

Piper longum is a well-known spice and traditional medicine. It was revealed to possess anti-diabetic activity, but few information about its active component and underlying mechanism could be available. In this study, retrofractamides A (1) and C (2) isolated from P. longum showed potent inhibitory activity against PTP1B. Therefore, the potential mechanism was predicted by network pharmacology and molecular docking. PI3K/AKT was obtained as the most remarkable pathway against type 2 diabetes mellitus (T2DM), and AKT1 and GSK3β were yielded as the top two core targets of retrofractamides A (1) and C (2). Molecular docking of compounds with AKT1 and GSK3β showed strong binding affinity between them. Additionally, cellular experiments with a L6 cell model was conducted to further verify the above predictions. Results indicated that retrofractamides A (1) and C (2) exerted anti-diabetic effect via activating PI3K/AKT pathway, and they promoted glucose consumption, glucose uptake, glycogen synthesis and glycolysis.

摘要

荜茇是一种著名的香料和传统药物。已发现其具有抗糖尿病活性，但关于其活性成分和潜在机制的信息却很少。在本研究中，从荜茇中分离出的反式呋喃酰胺A（1）和C（2）对蛋白酪氨酸磷酸酶1B（PTP1B）表现出强效抑制活性。因此，通过网络药理学和分子对接预测了其潜在机制。磷脂酰肌醇-3激酶/蛋白激酶B（PI3K/AKT）被确定为对抗2型糖尿病（T2DM）最显著的信号通路，蛋白激酶B1（AKT1）和糖原合成酶激酶-3β（GSK3β）被确定为反式呋喃酰胺A（1）和C（2）的前两个核心靶点。化合物与AKT1和GSK3β的分子对接显示它们之间具有很强的结合亲和力。此外，利用L6细胞模型进行细胞实验以进一步验证上述预测。结果表明，反式呋喃酰胺A（1）和C（2）通过激活PI3K/AKT信号通路发挥抗糖尿病作用，它们促进葡萄糖消耗、葡萄糖摄取、糖原合成和糖酵解。

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基于网络药理学结合细胞实验的荜茇酰胺生物碱抗糖尿病作用及分子机制

Anti-Diabetic Effects and Molecular Mechanisms of Amide Alkaloids from Piper longum Based on Network Pharmacology Integrated with Cellular Assays.

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