黄芩苷通过 Akt/FOXG1 通路促进神经元分化和存活发挥抗抑郁作用。

Baicalin exerts antidepressant effects through Akt/FOXG1 pathway promoting neuronal differentiation and survival.

机构信息

Qinba Traditional Chinese Medicine Resources Research and Development Center, AnKang University, AnKang 725000, PR China; Department of Pharmacology of Chinese Materia Medica, China Pharmaceutical University, Nanjing, 639, Longmian Road, Nanjing 211198, China.

Department of Pharmacy, The Affiliated Nanjing Brain Hospital of Nanjing Medical University, Nanjing, Jiangsu, China.

出版信息

Life Sci. 2019 Mar 15;221:241-248. doi: 10.1016/j.lfs.2019.02.033. Epub 2019 Feb 19.

DOI:10.1016/j.lfs.2019.02.033

PMID:30794828

Abstract

BACKGROUND AND AIMS

Impaired neurogenesis in hippocampus may contribute to a variety of neurological diseases, such as Alzheimer's disease and depression. Baicalin (BA), which is mainly isolated from the root Scutellaria baicalensis Georgi (traditional Chinese herb), which was reported to facilitate neurogenesis, but how to play the role and the underlying molecular mechanisms are still unknown.

MAIN METHODS

In this study, we adopted the chronic unpredictable mild stress (CUMS)-induced mouse model of depression, and then explore antidepressant-like effects and possible molecular mechanisms.

KEY FINDINGS

We found that BA significantly increased sucrose consumption in sucrose preference test, the number of crossing in open filed test and attenuated immobility time in tail suspension test. Additionally, BA administration notably promoted neuronal differentiation and the number of DCX cells. Moreover, BA facilitated immature neurons develop into mature neurons and their survival. FOXG1, a transcription factor gene, which is crucial for mammalian telencephalon development, specifically stimulates dendrite elongation. BA could reverse the decrease of p-Akt, FOXG1 and FGF2 caused by CUMS-induced. Additionally, the expression of FOXG1 and FGF2 significantly decreased when the Akt pathway were inhibited by LY294002 in SH-SY5Y cells. Interestingly, BA failed to counteract the decline.

SIGNIFICANCE

These results suggest that BA could promote the differentiation of neurons, which transformation into mature neurons and their survival via the Akt/FOXG1 pathway to exert antidepressant effects.

摘要

背景与目的

海马体中的神经发生受损可能与多种神经退行性疾病有关，如阿尔茨海默病和抑郁症。黄芩苷（BA）主要从黄芩（传统中药）的根部分离出来，据报道它能促进神经发生，但如何发挥作用及其潜在的分子机制尚不清楚。

主要方法

本研究采用慢性不可预知性轻度应激（CUMS）诱导的抑郁小鼠模型，探讨其抗抑郁样作用及其可能的分子机制。

主要发现

我们发现 BA 显著增加了蔗糖偏好测试中的蔗糖消耗、旷场测试中的穿越次数和悬尾测试中的不动时间。此外，BA 给药明显促进了神经元分化和 DCX 细胞数量的增加。此外，BA 促进了未成熟神经元向成熟神经元的发育和存活。FOXG1 是一种对哺乳动物端脑发育至关重要的转录因子基因，它能特异性地刺激树突伸长。BA 可以逆转 CUMS 诱导的 p-Akt、FOXG1 和 FGF2 的减少。此外，当 Akt 通路被 LY294002 在 SH-SY5Y 细胞中抑制时，FOXG1 和 FGF2 的表达明显下降。有趣的是，BA 未能逆转这一下降。

意义

这些结果表明，BA 可以通过 Akt/FOXG1 通路促进神经元的分化、转化为成熟神经元及其存活，从而发挥抗抑郁作用。

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黄芩苷通过 Akt/FOXG1 通路促进神经元分化和存活发挥抗抑郁作用。

Baicalin exerts antidepressant effects through Akt/FOXG1 pathway promoting neuronal differentiation and survival.

机构信息

出版信息

BACKGROUND AND AIMS

MAIN METHODS

KEY FINDINGS

SIGNIFICANCE

背景与目的

主要方法

主要发现

意义

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