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黄芪黄酮诱导脑梗死模型中神经干细胞的增殖和分化。

Astragalus Flavone Induces Proliferation and Differentiation of Neural Stem Cells in a Cerebral Infarction Model.

机构信息

Department of Neurology, Shanghai Municipal Hospital of Traditional Chinese Medicine, Shanghai University of Traditional Chinese Medicine, Shanghai, China (mainland).

出版信息

Med Sci Monit. 2022 Mar 7;28:e933830. doi: 10.12659/MSM.933830.

DOI:10.12659/MSM.933830
PMID:35250022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8915658/
Abstract

BACKGROUND Ischemic cerebrovascular disease leads to the activation and differentiation of neural stem cells (NSCs) into mature neurons and glia cells to repair nerve damage. Astragalus flavone (ASF) has shown its potential role in proliferation and differentiation into dopamine neurons of NSCs. MATERIAL AND METHODS Cerebral infarction models were constructed to determine the effects of ASF on NSCs in vivo and in vitro. RESULTS ASF therapy had the ability to reduce the neurologic function scores and the cerebral infarction volume of the cerebral infarction model. Moreover, ASF was able to increase BrdU-positive cells and promote the expression of Nestin, ß-Tubulin III, and O4, while decreasing the expression of GFAP. qRT-PCR and western blot assays showed ASF promoted the expression of Mash1, Math1, and Ngn2 mRNA and protein in cerebral infarction rats. Meanwhile, ASF (20 μg/ml) was able to increase EdU-positive cells and promote the expression of Nestin, ß-Tubulin III, and O4 of NSCs at day14 in vitro. In normoxia, ASF obviously promoted the expression of Mash1, Ngn1, and Ngn2 mRNA and proteins, but in hypoxia, ASF promoted the expression of Notch1 and Math1 mRNA and proteins and inhibited the expression of Ngn1 and Ngn2 mRNA and proteins. CONCLUSIONS ASF therapy can improve the neurologic functions and reduce the cerebral infarction volume in a cerebral infarction model. Moreover, ASF promoted the proliferation of NSCs and induced differentiation into neurons and oligodendrocytes, which might be involved in regulating factors in Notch signaling.

摘要

背景

缺血性脑血管病导致神经干细胞(NSCs)激活和分化为成熟神经元和神经胶质细胞,从而修复神经损伤。黄芪黄酮(ASF)已显示出其在 NSCs 向多巴胺神经元增殖和分化中的潜在作用。

材料与方法

构建脑梗死模型,以确定 ASF 对体内和体外 NSCs 的影响。

结果

ASF 治疗可降低脑梗死模型的神经功能评分和脑梗死体积。此外,ASF 能够增加 BrdU 阳性细胞,并促进巢蛋白、β-微管蛋白 III 和 O4 的表达,同时降低 GFAP 的表达。qRT-PCR 和 Western blot 检测显示 ASF 促进脑梗死大鼠 Mash1、Math1 和 Ngn2 mRNA 和蛋白的表达。同时,ASF(20μg/ml)能够增加体外第 14 天 EdU 阳性细胞,并促进 NSCs 中巢蛋白、β-微管蛋白 III 和 O4 的表达。在常氧条件下,ASF 明显促进 Mash1、Ngn1 和 Ngn2 mRNA 和蛋白的表达,但在低氧条件下,ASF 促进 Notch1 和 Math1 mRNA 和蛋白的表达,并抑制 Ngn1 和 Ngn2 mRNA 和蛋白的表达。

结论

ASF 治疗可改善脑梗死模型的神经功能,降低脑梗死体积。此外,ASF 促进 NSCs 的增殖,并诱导其分化为神经元和少突胶质细胞,这可能涉及 Notch 信号通路调节因子。

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