Excess Ub-K48 Induces Neuronal Apoptosis in Alzheimer's Disease.

IF 2.5 4区医学 Q3 NEUROSCIENCES

Journal of integrative neuroscience Pub Date : 2024-12-24 DOI:10.31083/j.jin2312223

Qiang Li, Yiyuan Yuan, Shi Huang, Guangfu Di, Haoyuan Chen, Yani Zhuang, Wanzhen Fang, Yanjiao Huang, Yinan Tao, Jing Jiang, Zhiliang Xu

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引用次数: 0

Abstract

Background: K48-linked ubiquitin chain (Ub-K48) is a crucial ubiquitin chain implicated in protein degradation within the ubiquitin-proteasome system. However, the precise function and molecular mechanism underlying the role of Ub-K48 in the pathogenesis of Alzheimer's disease (AD) and neuronal cell abnormalities remain unclear. The objective of this study was to examine the function of K48 ubiquitination in the etiology of AD, and its associated mechanism of neuronal apoptosis.

Methods: A mouse model of AD was constructed, and behavioral phenotypic changes were detected using an open field test (OFT). The expression of glial fibrillary acidic protein (GFAP), an early marker of AD, was detected by western blotting (WB). Neuronal apoptosis in the hippocampal region was assessed by hematoxylin and eosin (HE) and Nissl staining. Immunohistochemistry and immunofluorescence were performed to observe the changes in Phosphorylated tubulin associated unit (p-Tau) and Ub-K48 colocalization in neurons of the hippocampal region of AD mice. WB was further applied to detect the degree of ubiquitylation of K48 and the expression of Tau, p-Tau, B-cell lymphoma-2 (Bcl-2) and Bcl-2-associated X (Bax) proteins in neuronal cells of the hippocampus and cortical regions of mice.

Results: Mice with AD exhibited significantly longer resting times (p < 0.05) and shorter average speeds (p < 0.01), total distances travelled (p < 0.01), and distances travelled (p < 0.01) in the central region than those in the control group. This indicated cognitive impairment, which occurred concurrent with an increased expression of the AD marker GFAP protein (p < 0.001). The hippocampal region of AD mice showed abnormalities with sparsely and irregularly arranged cells, large gaps between cells, lighter staining, unclear boundaries of the cell membranes and nuclei, and agglutinated and condensed nuclei (p < 0.01). The neuronal cells of AD mice exhibited significantly elevated levels of p-Tau (p < 0.01) and Ub-K48 (p < 0.01), as well as a notable degree of co-localization within the cells. The intracellular pro-inflammatory protein Bax was significantly upregulated (p < 0.05), while the Bcl-2/Bax ratio was significantly lower than that in the control group (p < 0.05), thus inducing apoptosis in AD neuronal cells.

Conclusion: Ub-K48 is strongly linked to the development of AD. p-Tau aggregate in neuronal cells in the hippocampal region of the AD brain and colocalize with Ub-K48, which in turn leads to cellular inflammation and the induction of apoptosis in neuronal cells.

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过量Ub-K48诱导阿尔茨海默病神经元凋亡

背景：k48连接的泛素链（Ub-K48）是泛素-蛋白酶体系统中涉及蛋白质降解的重要泛素链。然而，Ub-K48在阿尔茨海默病（AD）发病机制和神经元细胞异常中的确切功能和分子机制尚不清楚。本研究的目的是探讨K48泛素化在AD病因中的作用及其与神经元凋亡的相关机制。方法：建立AD小鼠模型，采用开放场试验（open field test， OFT）检测行为表型变化。western blotting （WB）检测AD早期标志物胶质原纤维酸性蛋白（GFAP）的表达。苏木精和伊红（HE）染色及尼氏染色观察海马区神经元凋亡情况。采用免疫组织化学和免疫荧光法观察AD小鼠海马区神经元磷酸化微管蛋白相关单位（p-Tau）和Ub-K48共定位的变化。WB进一步检测小鼠海马和皮质区神经元细胞中K48的泛素化程度以及Tau、p-Tau、b细胞淋巴瘤-2 （Bcl-2）和Bcl-2相关X （Bax）蛋白的表达。结果：AD小鼠的静息时间（p < 0.05）明显长于对照组，平均运动速度（p < 0.01）、总运动距离（p < 0.01）、中央区运动距离（p < 0.01）明显短于对照组。这表明认知障碍与AD标志物GFAP蛋白表达增加同时发生（p < 0.001）。AD小鼠海马区出现异常，细胞稀疏排列不规则，细胞间隙大，染色较浅，细胞膜和细胞核边界不清，细胞核凝集、凝聚（p < 0.01）。AD小鼠神经元细胞中p- tau和Ub-K48水平显著升高（p < 0.01），细胞内共定位程度显著。细胞内促炎蛋白Bax显著上调（p < 0.05）， Bcl-2/Bax比值显著低于对照组（p < 0.05），从而诱导AD神经元细胞凋亡。结论：Ub-K48与AD的发展密切相关。p-Tau聚集在AD脑海马区的神经元细胞中，并与Ub-K48共定位，从而导致细胞炎症和神经元细胞凋亡的诱导。

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来源期刊

Journal of integrative neuroscience 医学-神经科学

CiteScore

2.80

自引率

5.60%

发文量

173

审稿时长

2 months

期刊介绍： JIN is an international peer-reviewed, open access journal. JIN publishes leading-edge research at the interface of theoretical and experimental neuroscience, focusing across hierarchical levels of brain organization to better understand how diverse functions are integrated. We encourage submissions from scientists of all specialties that relate to brain functioning.