Extension domain of amyloid processor protein inhibits amyloidogenic cleavage and balances neural activity in a traumatic brain injury mouse model

IF 4.8 1区 医学 Q1 NEUROSCIENCES
Zhenxing Xie, Tianyu Li, Wei Su, Yanyun Lou, Yongsheng Zhang, Xiyuan Zhou, Zhanfei Li, Xiangjun Bai, Xinghua Liu
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Abstract

Background

Mechanisms underlying cognitive dysfunction following traumatic brain injury (TBI) partially due to abnormal amyloid processor protein (APP) cleavage and neural hyperactivity. Binding of the extension domain of APP (ExD17) to the GABAbR1 receptor results in reduced neural activity, which might play a role in the mechanisms of cognitive dysfunction caused by TBI.

Methods

Stretch-induced injury was utilized to establish a cell injury model in HT22 cells. The TBI model was created by striking the exposed brain tissue with a free-falling weight. Topical or intraperitoneal administration of ExD17 was performed. Cell viability was assessed through a cell counting kit-8 assay, while intracellular Ca2+ was measured using Fluo-4. Western blotting was used to investigate the expression of APP amyloidogenic cleavage proteins, GABAbR1, phospholipase C (PLC), PLCB3, and synaptic proteins. ELISA was performed to analyze the levels of Aβ42. Seizures were assessed using electroencephalography (EEG). Behaviors were evaluated through the novel object recognition test, open field test, elevated plus maze test, and nest-building test.

Results

ExD17 improved cell viability and reduced intracellular calcium in the cell injury model. The treatment also suppressed the increased expression of APP amyloidogenic cleavage proteins and Aβ42 in both cell injury and TBI models. ExD17 treatment reversed the abnormal expression of GABAbR1, GRIA2, p-PLCG1/PLCG1 ratio, and p-PLCB3/PLCB3 ratio. In addition, ExD17 treatment reduced neural activity, seizure events, and their duration in TBI. Intraperitoneal injection of ExD17 improved behavioral outcomes in the TBI mouse model.

Conclusions

ExD17 treatment results in a reduction of amyloidogenic APP cleavage and neuroexcitotoxicity, ultimately leading to an improvement in the behavioral deficits observed in TBI mice.

Abstract Image

淀粉样蛋白处理器蛋白的扩展结构域可抑制淀粉样蛋白的裂解,并平衡脑外伤小鼠模型的神经活动
背景创伤性脑损伤(TBI)后认知功能障碍的机制部分是由于淀粉样蛋白处理器蛋白(APP)的异常裂解和神经亢进造成的。APP的延伸域(ExD17)与GABAbR1受体结合会导致神经活动减弱,这可能在创伤性脑损伤引起认知功能障碍的机制中发挥作用。 方法 利用拉伸诱导损伤在 HT22 细胞中建立细胞损伤模型。创伤性脑损伤模型是用自由落体重物击打暴露的脑组织而建立的。局部或腹腔注射 ExD17。细胞活力通过细胞计数试剂盒-8测定法进行评估,细胞内 Ca2+ 则通过 Fluo-4 进行测量。用 Western 印迹法检测 APP 淀粉样蛋白生成裂解蛋白、GABAbR1、磷脂酶 C (PLC)、PLCB3 和突触蛋白的表达。酶联免疫吸附法分析了Aβ42的水平。癫痫发作通过脑电图(EEG)进行评估。行为评估包括新物体识别测试、开阔地测试、高架迷宫测试和筑巢测试。 结果 在细胞损伤模型中,ExD17 提高了细胞活力,降低了细胞内钙含量。治疗还抑制了细胞损伤和创伤性脑损伤模型中APP淀粉样蛋白裂解蛋白和Aβ42表达的增加。ExD17 治疗逆转了 GABAbR1、GRIA2、p-PLCG1/PLCG1 比率和 p-PLCB3/PLCB3 比率的异常表达。此外,ExD17 治疗还能减少创伤性脑损伤患者的神经活动、癫痫发作事件及其持续时间。腹腔注射 ExD17 可改善 TBI 小鼠模型的行为结果。 结论 ExD17 治疗可减少致淀粉样蛋白 APP 的裂解和神经兴奋毒性,最终改善 TBI 小鼠的行为缺陷。
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来源期刊
CNS Neuroscience & Therapeutics
CNS Neuroscience & Therapeutics 医学-神经科学
CiteScore
7.30
自引率
12.70%
发文量
240
审稿时长
2 months
期刊介绍: CNS Neuroscience & Therapeutics provides a medium for rapid publication of original clinical, experimental, and translational research papers, timely reviews and reports of novel findings of therapeutic relevance to the central nervous system, as well as papers related to clinical pharmacology, drug development and novel methodologies for drug evaluation. The journal focuses on neurological and psychiatric diseases such as stroke, Parkinson’s disease, Alzheimer’s disease, depression, schizophrenia, epilepsy, and drug abuse.
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