开心散通过激活CaMKKβ-AMPK-PGC-1α信号轴调节神经元线粒体稳态,从而改善阿尔茨海默病的认知功能。

IF 6.7 1区 医学 Q1 CHEMISTRY, MEDICINAL
Jiale Ren , Beibei Xiang , Lili Song , Dehou Jésuton René , Yifang Luo , Guiying Wen , Hao Gu , Zhen Yang , Yanjun Zhang
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引用次数: 0

摘要

背景:阿尔茨海默病(AD)是一种以认知障碍为主要特征的神经退行性疾病。随着人口老龄化的加剧,老年痴呆症已成为影响老年人健康的主要问题。开心散是由人参、黄精、远志、茯苓、刺五加组成的经典中药方剂,临床上常用于治疗记忆力衰退。然而,其作用机制尚不明确,阻碍了其推广和应用:方法:采用莫里斯水迷宫法(MWM)评价开心散对SAMP8(senescence-accelerated mouse prone 8,一种AD模型小鼠)小鼠学习记忆能力的改善作用。采用Nissl染色、TdT介导的dUTP尼克末端标记(TUNEL)和Western印迹(Bax和Bcl-2)证实开欣散对SAMP8小鼠神经元结构和细胞凋亡的影响。超高效液相色谱-四极杆飞行时间质谱法(UPLC-Q-TOF/MS)鉴定了开欣散提取后在脑组织中的分布成分。根据鉴定出的脑分布成分,通过网络药理学预测了开心散改善认知功能的机制。然后,以HSP60作为线粒体标记物,RBFOX3作为神经元标记物,通过免疫荧光共定位证实了开欣散对SAMP8小鼠神经元线粒体数量的影响。采用 Western 印迹法检测与线粒体平衡有关的预测蛋白(AMPK、CaMKKβ、PGC-1α 和 HSP90)的表达。为了进一步证实开欣散的作用机制,我们复制了淀粉样β蛋白片段25-35(Aβ25-35)诱导的SH-SY5Y细胞损伤模型,并用流式细胞仪研究了含开欣散的血清对损伤的SH-SY5Y细胞凋亡的影响。比较了 CaMKKβ 抑制剂(STO-609)存在或不存在时凋亡相关蛋白(Bax 和 Bcl-2)和线粒体稳态相关蛋白(AMPK、CaMKKβ、PGC-1α 和 HSP90)的表达水平:结果表明:开信散能改善SAMP8小鼠的认知功能,减轻海马组织损伤,抑制神经元凋亡。结果表明,开新散能改善SAMP8小鼠的认知功能,减轻海马组织病变,抑制神经元凋亡。根据开心散的脑分布成分,网络药理学结果表明,开心散可能通过CaMKKβ-AMPK-PGC-1α信号轴调节线粒体平衡。体内实验表明,开新散能通过上调CaMKKβ、AMPK、HSP90和PGC-1α促进线粒体的生物生成,增加神经元线粒体的数量,从而逆转SAMP8小鼠神经元线粒体的丢失。此外,体外实验表明,开心散能抑制Aβ25-35损伤的SH-SY5Y细胞的凋亡,并上调线粒体平衡相关蛋白CaMKKβ、AMPK和PGC-1α。结论:结果表明,开心散对神经细胞有保护作用,但在CaMKKβ抑制剂的作用下,其神经保护作用消失:结果表明,开欣散可通过调节CaMKKβ-AMPK-PGC-1α信号轴维持线粒体平衡和抑制神经元凋亡来改善SAMP8小鼠的认知功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Kaixinsan regulates neuronal mitochondrial homeostasis to improve the cognitive function of Alzheimer's disease by activating CaMKKβ-AMPK-PGC-1α signaling axis

Kaixinsan regulates neuronal mitochondrial homeostasis to improve the cognitive function of Alzheimer's disease by activating CaMKKβ-AMPK-PGC-1α signaling axis

Background

Alzheimer's disease (AD) is a neurodegenerative disease primarily characterized by cognitive impairments. With the intensification of population aging, AD has become a major health concern affecting the elderly. Kaixinsan, a classical traditional Chinese formula, consists of Ginseng Panax et Rhizoma, Polygalae Radix, Poria and Acori Tatarinowii Rhizoma, and is commonly used in clinical for treating memory decline. However, its mechanism remains unclear, which hinders its popularization and application.

Method

Morris water maze (MWM) was performed to evaluate the effect of Kaixinsan on improving learning and memory ability in SAMP8 (senescence-accelerated mouse prone 8, an AD model mice) mice. Nissl staining, TdT-mediated dUTP Nick End Labeling (TUNEL) and western blotting (Bax and Bcl-2) were used to confirm the effect of Kaixinsan on the neuronal structure and apoptosis of SAMP8 mice. Ultra performance liquid chromatography coupled with quadrupole time of flight mass spectrometry (UPLC-Q-TOF/MS) was performed to identify the distribution components in brain tissue after administration of Kaixinsan extraction. Based on the identified brain distribution components, the mechanism of Kaixinsan improving the cognitive function was predicted by network pharmacology. Then, using HSP60 as a mitochondrial marker and RBFOX3 as a neuronal marker, immunofluorescence co-localization was used to confirm the effect of Kaixinsan on neuronal mitochondria quantity in SAMP8 mice. Western blotting was employed to access the expression of predicted proteins (AMPK, CaMKKβ, PGC-1α and HSP90) implicated in mitochondrial homeostasis. To further confirm the mechanism of Kaixinsan, SH-SY5Y cell injury model induced by amyloid β - protein fragment 25–35 (Aβ25–35) was replicated and the effect of Kaixinsan - containing serum on apoptosis in injured SH-SY5Y cells was investigated by flow cytometer. The expression level of apoptosis-associated proteins (Bax and Bcl-2) and mitochondrial homeostasis related proteins (AMPK, CaMKKβ, PGC-1α and HSP90) in the presence or absence of CaMKKβ inhibitor (STO-609) were compared.

Results

The results indicate that Kaixinsan can improve the cognitive function of SAMP8 mice, alleviate the hippocampal tissue lesions and inhibit neuron apoptosis. Seventeen brain distribution components of Kaixinsan were identified. Based on the brain distribution components of Kaixinsan, the results of network pharmacology suggest that Kaixinsan may regulate mitochondrial homeostasis through the CaMKKβ-AMPK-PGC-1α signaling axis. In vivo experiments indicated that Kaixinsan could reverse neuronal mitochondrial loss in SAMP8 mice by upregulating CaMKKβ, AMPK, HSP90 and PGC-1α to promote mitochondrial biogenesis and increase the number of neuronal mitochondria. Additionally, the in vitro experiments demonstrated that Kaixinsan can inhibit apoptosis of Aβ25–35 injured SH-SY5Y cells and upregulate mitochondrial homeostasis-related proteins CaMKKβ, AMPK and PGC-1α. However, in addition to CaMKKβ inhibitors, the neuroprotective effect disappeared.

Conclusion

The results indicate that Kaixinsan can improve the cognitive function of SAMP8 mice by regulating CaMKKβ-AMPK-PGC-1α signaling axis to maintain mitochondrial homeostasis and inhibit neuronal apoptosis.
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来源期刊
Phytomedicine
Phytomedicine 医学-药学
CiteScore
10.30
自引率
5.10%
发文量
670
审稿时长
91 days
期刊介绍: Phytomedicine is a therapy-oriented journal that publishes innovative studies on the efficacy, safety, quality, and mechanisms of action of specified plant extracts, phytopharmaceuticals, and their isolated constituents. This includes clinical, pharmacological, pharmacokinetic, and toxicological studies of herbal medicinal products, preparations, and purified compounds with defined and consistent quality, ensuring reproducible pharmacological activity. Founded in 1994, Phytomedicine aims to focus and stimulate research in this field and establish internationally accepted scientific standards for pharmacological studies, proof of clinical efficacy, and safety of phytomedicines.
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