Efficacy of Sailuotong on neurovascular unit in amyloid precursor protein/presenilin-1 transgenic mice with Alzheimer's disease.

Sun Linjuan, L I Chengfu, Liu Jiangang, L I Nannan, Han Fuhua, Qiao Dandan, Tao Zhuang, Zhan Min, Chen Wenjie, Zhang Xiaohui, Tong Chenguang, Chen Dong, Qi Jiangxia, Liu Yang, Liang Xiao, Zheng Xiaoying, Zhang Yunling
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Abstract

Objective: To discuss the influence of Sailuotong (, SLT) on the Neurovascular Unit (NVUs) of amyloid precursor protein (APP)/presenilin-1(PS1) mice and evaluate the role of gas supplementation in activating blood circulation during the progression of Alzheimer's disease (AD).

Methods: The mice were allocated into the following nine groups: (a) the C57 Black (C57BL) sham-operated group (control group), (b) ischaemic treatment in C57BL mice (the C57 ischaemic group), (c) the APP/PS1 sham surgery group (APP/PS1 model group), (d) ischaemic treatment in APP/PS1 mice (APP/PS1 ischaemic group), (e) C57BL mice treated with aspirin following ischaemic treatment (C57BL ischaemic + aspirin group), (f) C57BL mice treated with SLT following ischaemic treatment (C57BL ischaemic + SLT group), (g) APP/PS1 mice treated with SLT (APP/PS1 + SLT group), (h) APP/PS1 mice treated with donepezil hydrochloride following ischaemic treatment (APP/PS1 ischaemic + donepezil hydrochloride group) and (i) APP/PS1 mice treated with SLT following ischaemic treatment (APP/PS1 ischaemic + SLT group). The ischaemic model was established by operating on the bilateral common carotid arteries and creating a microembolism. The Morris water maze and step-down tests were used to detect the spatial behaviour and memory ability of mice. The hippocampus of each mouse was observed by haematoxylin and eosin (HE) and Congo red staining. The ultrastructure of NVUs in each group was observed by electron microscopy, and various biochemical indicators were detected by enzyme-linked immunosorbent assay (ELISA). The protein expression level was detected by Western blot. The mRNA expression was detected by quantitative real-time polymerase chain reaction (qRT-PCR).

Results: The results of the Morris water maze and step-down tests showed that ischemia reduced learning and memory in the mice, which were restored by SLT. The results of HE staining showed that SLT restored the pathological changes of the NVUs. The Congo red staining results revealed that SLT also improved the scattered orange-red sediments in the upper cortex and hippocampus of the APP/PS1 and APP/PS1 ischaemic mice. Furthermore, SLT significantly reduced the content of Aβ, improved the vascular endothelium and repaired the mitochondrial structures. The ELISA detection, western blot detection and qRT-PCR showed that SLT significantly increased the vascular endothelial growth factor (VEGF), angiopoietin and basic fibroblast growth factor, as well as the levels of gene and protein expression of low-density lipoprotein receptor-related protein-1 (LRP-1) and VEGF in brain tissue.

Conclusions: By increasing the expression of VEGF, SLT can promote vascular proliferation, up-regulate the expression of LRP-1, promote the clearance of Aβ and improve the cognitive impairment of APP/PS1 mice. These results confirm that SLT can improve AD by promoting vascular proliferation and Aβ clearance to protect the function of NVUs.

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赛络通对淀粉样前体蛋白/presenilin-1转基因阿尔茨海默病小鼠神经血管单元的疗效
目的探讨赛络通(SLT)对淀粉样前体蛋白(APP)/脑啡肽-1(PS1)小鼠神经血管单元(NVU)的影响,并评估在阿尔茨海默病(AD)进展过程中补气活血的作用:将小鼠分为以下九组:(方法:将小鼠分为以下九组:(a)C57 黑(C57BL)假手术组(对照组);(b)C57BL 小鼠缺血治疗组(C57 缺血组);(c)APP/PS1 假手术组(APP/PS1 模型组)、(d) APP/PS1 小鼠缺血治疗(APP/PS1 缺血组), (e) C57BL 小鼠缺血治疗后使用阿司匹林治疗(C57BL 缺血 + 阿司匹林组)、(f) C57BL 小鼠缺血后接受 SLT 治疗(C57BL 缺血 + SLT 组), (g) APP/PS1 小鼠接受 SLT 治疗(APP/PS1 + SLT 组)、(h) APP/PS1 小鼠缺血后用盐酸多奈哌齐治疗(APP/PS1 缺血 + 盐酸多奈哌齐组)和 (i) APP/PS1 小鼠缺血后用 SLT 治疗(APP/PS1 缺血 + SLT 组)。缺血模型是通过在双侧颈总动脉上操作并产生微栓子而建立的。采用莫里斯水迷宫和降阶测试检测小鼠的空间行为和记忆能力。对每只小鼠的海马进行了血色素和伊红(HE)以及刚果红染色观察。用电子显微镜观察各组 NVU 的超微结构,并用酶联免疫吸附试验(ELISA)检测各种生化指标。蛋白表达水平通过 Western 印迹法检测。结果:结果:Morris水迷宫和降阶试验结果表明,缺血会降低小鼠的学习和记忆能力,而SLT可恢复小鼠的学习和记忆能力。HE 染色结果显示,SLT 恢复了 NVU 的病理变化。刚果红染色结果显示,SLT 还改善了 APP/PS1 和 APP/PS1 缺血小鼠上皮层和海马中分散的橙红色沉淀物。此外,SLT 还能明显降低 Aβ 含量,改善血管内皮,修复线粒体结构。ELISA检测、Western印迹检测和qRT-PCR检测表明,SLT能显著提高脑组织中血管内皮生长因子(VEGF)、血管生成素和碱性成纤维细胞生长因子的含量,以及低密度脂蛋白受体相关蛋白-1(LRP-1)和血管内皮生长因子的基因和蛋白表达水平:结论:通过增加血管内皮生长因子的表达,SLT 可以促进血管增殖,上调 LRP-1 的表达,促进 Aβ 的清除,改善 APP/PS1 小鼠的认知功能障碍。这些结果证实,SLT可通过促进血管增殖和Aβ清除来保护NVU的功能,从而改善AD。
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