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小胶质细胞中 RAGE 依赖性信号转导导致阿尔茨海默病小鼠模型中的神经炎症、Abeta 积累和学习/记忆受损。

RAGE-dependent signaling in microglia contributes to neuroinflammation, Abeta accumulation, and impaired learning/memory in a mouse model of Alzheimer's disease.

机构信息

P&S 17-410, Department Surgery, College of Physicians and Surgeons, Columbia University, 630 West 168th St., New York, NY 10032, USA.

出版信息

FASEB J. 2010 Apr;24(4):1043-55. doi: 10.1096/fj.09-139634. Epub 2009 Nov 11.

DOI:10.1096/fj.09-139634
PMID:19906677
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3231946/
Abstract

Microglia are critical for amyloid-beta peptide (Abeta)-mediated neuronal perturbation relevant to Alzheimer's disease (AD) pathogenesis. We demonstrate that overexpression of receptor for advanced glycation end products (RAGE) in imbroglio exaggerates neuroinflammation, as evidenced by increased proinflammatory mediator production, Abeta accumulation, impaired learning/memory, and neurotoxicity in an Abeta-rich environment. Transgenic (Tg) mice expressing human mutant APP (mAPP) in neurons and RAGE in microglia displayed enhanced IL-1beta and TNF-alpha production, increased infiltration of microglia and astrocytes, accumulation of Abeta, reduced acetylcholine esterase (AChE) activity, and accelerated deterioration of spatial learning/memory. Notably, introduction of a signal transduction-defective mutant RAGE (DN-RAGE) to microglia attenuates deterioration induced by Abeta. These findings indicate that RAGE signaling in microglia contributes to the pathogenesis of an inflammatory response that ultimately impairs neuronal function and directly affects amyloid accumulation. We conclude that blockade of microglial RAGE may have a beneficial effect on Abeta-mediated neuronal perturbation relevant to AD pathogenesis.-Fang, F., Lue, L.-F., Yan, S., Xu, H., Luddy, J. S., Chen, D., Walker, D. G., Stern, D. M., Yan, S., Schmidt, A. M., Chen, J. X., Yan, S. S. RAGE-dependent signaling in microglia contributes to neuroinflammation, Abeta accumulation, and impaired learning/memory in a mouse model of Alzheimer's disease.

摘要

小胶质细胞对于与阿尔茨海默病(AD)发病机制相关的淀粉样β肽(Abeta)介导的神经元扰动至关重要。我们证明,在富含 Abeta 的环境中,受体晚期糖基化终产物(RAGE)的过表达会加剧神经炎症,这表现在促炎介质产生增加、Abeta 积累、学习/记忆受损和神经毒性。在神经元中表达人突变 APP(mAPP)和小胶质细胞中表达 RAGE 的转基因(Tg)小鼠表现出增强的 IL-1β和 TNF-α产生、小胶质细胞和星形胶质细胞浸润增加、Abeta 积累减少、乙酰胆碱酯酶(AChE)活性降低以及空间学习/记忆恶化加速。值得注意的是,向小胶质细胞中引入信号转导缺陷型突变 RAGE(DN-RAGE)可减轻 Abeta 诱导的恶化。这些发现表明 RAGE 信号在小胶质细胞中有助于炎症反应的发病机制,最终损害神经元功能并直接影响淀粉样蛋白的积累。我们得出结论,阻断小胶质细胞 RAGE 可能对与 AD 发病机制相关的 Abeta 介导的神经元扰动具有有益的影响。-方,F.,吕,L.-F.,严,S.,徐,H.,勒迪,J. S.,陈,D.,沃克,D. G.,斯特恩,D. M.,严,S.,施密特,A. M.,陈,J. X.,严,S. S. RAGE 依赖性信号在小胶质细胞中有助于神经炎症、Abeta 积累和在阿尔茨海默病小鼠模型中的学习/记忆受损。

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