ADAM17在阿尔茨海默病APP/PS1小鼠模型的脑血管和认知功能中的作用。
The role of ADAM17 in cerebrovascular and cognitive function in the APP/PS1 mouse model of Alzheimer's disease.
作者信息
Tian Yanna, Fopiano Katie Anne, Buncha Vadym, Lang Liwei, Suggs Hayden A, Wang Rongrong, Rudic R Daniel, Filosa Jessica A, Bagi Zsolt
机构信息
Department of Physiology, Medical College of Georgia, Augusta University, Augusta, GA, United States.
Department of Pharmacology, Medical College of Georgia, Augusta University, Augusta, GA, United States.
出版信息
Front Mol Neurosci. 2023 Mar 2;16:1125932. doi: 10.3389/fnmol.2023.1125932. eCollection 2023.
INTRODUCTION
The disintegrin and metalloproteinase 17 (ADAM17) exhibits α-secretase activity, whereby it can prevent the production of neurotoxic amyloid precursor protein-α (APP). ADAM17 is abundantly expressed in vascular endothelial cells and may act to regulate vascular homeostatic responses, including vasomotor function, vascular wall morphology, and formation of new blood vessels. The role of vascular ADAM17 in neurodegenerative diseases remains poorly understood. Here, we hypothesized that cerebrovascular ADAM17 plays a role in the pathogenesis of Alzheimer's disease (AD).
METHODS AND RESULTS
We found that 9-10 months old APP/PS1 mice with b-amyloid accumulation and short-term memory and cognitive deficits display a markedly reduced expression of ADAM17 in cerebral microvessels. Systemic delivery and adeno-associated virus (AAV)-mediated re-expression of ADAM17 in APP/PS1 mice improved cognitive functioning, without affecting b-amyloid plaque density. In isolated and pressurized cerebral arteries of APP/PS1 mice the endothelium-dependent dilation to acetylcholine was significantly reduced, whereas the vascular smooth muscle-dependent dilation to the nitric oxide donor, sodium nitroprusside was maintained when compared to WT mice. The impaired endothelium-dependent vasodilation of cerebral arteries in APP/PS1 mice was restored to normal level by ADAM17 re-expression. The cerebral artery biomechanical properties (wall stress and elasticity) and microvascular network density was not affected by ADAM17 re-expression in the APP/PS1 mice. Additionally, proteomic analysis identified several differentially expressed molecules involved in AD neurodegeneration and neuronal repair mechanisms that were reversed by ADAM17 re-expression.
DISCUSSION
Thus, we propose that a reduced ADAM17 expression in cerebral microvessels impairs vasodilator function, which may contribute to the development of cognitive dysfunction in APP/PS1 mice, and that ADAM17 can potentially be targeted for therapeutic intervention in AD.
引言
解整合素金属蛋白酶17(ADAM17)具有α-分泌酶活性,借此它可以阻止神经毒性淀粉样前体蛋白-α(APP)的产生。ADAM17在血管内皮细胞中大量表达,并可能在调节血管稳态反应中发挥作用,包括血管舒缩功能、血管壁形态以及新血管形成。血管ADAM17在神经退行性疾病中的作用仍知之甚少。在此,我们假设脑血管ADAM17在阿尔茨海默病(AD)的发病机制中起作用。
方法与结果
我们发现,9至10月龄且有β-淀粉样蛋白积累以及短期记忆和认知缺陷的APP/PS1小鼠,其脑微血管中ADAM17的表达明显降低。在APP/PS1小鼠中通过全身给药和腺相关病毒(AAV)介导的ADAM17重新表达改善了认知功能,而不影响β-淀粉样蛋白斑块密度。与野生型小鼠相比,在分离并加压的APP/PS1小鼠脑动脉中,对乙酰胆碱的内皮依赖性舒张明显降低,而对一氧化氮供体硝普钠的血管平滑肌依赖性舒张得以维持。APP/PS1小鼠脑动脉中受损的内皮依赖性血管舒张通过ADAM17重新表达恢复到正常水平。APP/PS1小鼠的脑动脉生物力学特性(壁应力和弹性)以及微血管网络密度不受ADAM17重新表达的影响。此外,蛋白质组学分析确定了几种参与AD神经退行性变和神经元修复机制的差异表达分子,这些分子通过ADAM17重新表达得到逆转。
讨论
因此,我们提出脑微血管中ADAM17表达降低会损害血管舒张功能,这可能导致APP/PS1小鼠认知功能障碍的发展,并且ADAM17有可能成为AD治疗干预的靶点。
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