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TREM1 破坏衰老和阿尔茨海默病小鼠模型中的髓样细胞生物能量和认知功能。

TREM1 disrupts myeloid bioenergetics and cognitive function in aging and Alzheimer disease mouse models.

机构信息

Department of Neurology and Neurological Sciences, Stanford University School of Medicine, Stanford, CA, USA.

Wu Tsai Neurosciences Institute, Stanford University, Stanford, CA, USA.

出版信息

Nat Neurosci. 2024 May;27(5):873-885. doi: 10.1038/s41593-024-01610-w. Epub 2024 Mar 27.

DOI:10.1038/s41593-024-01610-w
PMID:38539014
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11102654/
Abstract

Human genetics implicate defective myeloid responses in the development of late-onset Alzheimer disease. A decline in peripheral and brain myeloid metabolism, triggering maladaptive immune responses, is a feature of aging. The role of TREM1, a pro-inflammatory factor, in neurodegenerative diseases is unclear. Here we show that Trem1 deficiency prevents age-dependent changes in myeloid metabolism, inflammation and hippocampal memory function in mice. Trem1 deficiency rescues age-associated declines in ribose 5-phosphate. In vitro, Trem1-deficient microglia are resistant to amyloid-β oligomer-induced bioenergetic changes, suggesting that amyloid-β oligomer stimulation disrupts homeostatic microglial metabolism and immune function via TREM1. In the 5XFAD mouse model, Trem1 haploinsufficiency prevents spatial memory loss, preserves homeostatic microglial morphology, and reduces neuritic dystrophy and changes in the disease-associated microglial transcriptomic signature. In aging APP mice, Trem1 deficiency prevents hippocampal memory decline while restoring synaptic mitochondrial function and cerebral glucose uptake. In postmortem Alzheimer disease brain, TREM1 colocalizes with Iba1 cells around amyloid plaques and its expression is associated with Alzheimer disease clinical and neuropathological severity. Our results suggest that TREM1 promotes cognitive decline in aging and in the context of amyloid pathology.

摘要

人类遗传学表明,髓系反应缺陷与晚期阿尔茨海默病的发生有关。外周和大脑髓系代谢的下降,引发适应性免疫反应,是衰老的一个特征。TREM1(一种促炎因子)在神经退行性疾病中的作用尚不清楚。本文中,我们发现 Trem1 缺失可防止小鼠髓系代谢、炎症和海马记忆功能随年龄的变化。Trem1 缺失可挽救与年龄相关的核糖 5-磷酸的下降。在体外,Trem1 缺陷型小胶质细胞对淀粉样β寡聚体诱导的生物能变化具有抗性,表明淀粉样β寡聚体刺激通过 TREM1 破坏了小胶质细胞的稳态代谢和免疫功能。在 5XFAD 小鼠模型中,Trem1 杂合不足可防止空间记忆丧失,保持小胶质细胞形态的稳态,并减少神经突萎缩和与疾病相关的小胶质细胞转录组特征的改变。在衰老的 APP 小鼠中,Trem1 缺失可防止海马记忆下降,同时恢复突触线粒体功能和脑葡萄糖摄取。在阿尔茨海默病患者死后的大脑中,TREM1 与淀粉样斑块周围的 Iba1 细胞共定位,其表达与阿尔茨海默病的临床和神经病理学严重程度相关。我们的结果表明,TREM1 可促进衰老和淀粉样蛋白病理情况下的认知能力下降。

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