TREM2 bridges microglia and extracellular microenvironment: Mechanistic landscape and therapeutical prospects on Alzheimer’s disease

IF 12.5 1区医学 Q1 CELL BIOLOGY

Ageing Research Reviews Pub Date : 2024-11-27 DOI:10.1016/j.arr.2024.102596

Yiheng Zhao , Qian Guo , Jia Tian , Wei Liu , Xiaochuan Wang

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Abstract

Neuroinflammation is closely related to the pathogenesis of Alzheimer’s disease (AD). One of its prominent cellular components, microglia, is a potent coordinator of neuroinflammation in interplay with the characteristic AD pathological alterations including Aβ, tau, and neuronal defects, which constitute the AD-unique extracellular microenvironment. Mounting evidence implicates Triggering Receptors Expressed on Myeloid Cells 2 (TREM2) in the center of microglial activation, a vital event in the pathogenesis of AD. TREM2 is a pivotal microglial receptor that interacts with specific elements present in the AD microenvironment and induces microglial intracellular signallings contributing to phagocytosis, migration, cytokine production, metabolism, and survival, which shapes the microglial activation profile. It follows that TREM2 builds up a bridge between microglia and the extracellular microenvironment. This review illustrates how TREM2 modulates microglia to affect AD pathogenesis. Mainly presented facets in the review are i. the development of AD-specific microglial phenotypes (disease-associated microglia, DAM), ii. microglial interactions with major AD pathologies, and iii. the underlying intracellular signallings of microglial activation. Also, outstanding controversies regarding the nature of neuroinflammation are discussed. Through our illustration, we attempt to establish a TREM2-centered network of AD pathogenesis, in the hope as well to provide insights into the potential therapeutic strategies based on the underlying mechanisms.

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TREM2桥接小胶质细胞和细胞外微环境：阿尔茨海默病的机制景观和治疗前景。

神经炎症与阿尔茨海默病（AD）的发病密切相关。其突出的细胞成分之一，小胶质细胞，是神经炎症与AD特征性病理改变（包括a β， tau和神经元缺陷）相互作用的有效协调者，这些病理改变构成AD独特的细胞外微环境。越来越多的证据表明，髓样细胞2 （TREM2）触发受体在小胶质细胞激活的中心，这是阿尔茨海默病发病过程中的一个重要事件。TREM2是一种关键的小胶质受体，它与AD微环境中存在的特定元件相互作用，并诱导小胶质细胞内信号传导，参与吞噬、迁移、细胞因子产生、代谢和存活，从而形成小胶质细胞的激活谱。由此可见，TREM2在细胞外微环境之间建立了一座桥梁。本文综述了TREM2如何调节小胶质细胞影响AD的发病机制。综述中主要介绍的方面是：1 . ad特异性小胶质细胞表型（疾病相关小胶质细胞，DAM）的发展；小胶质细胞与AD主要病理的相互作用；小胶质细胞激活的潜在细胞内信号。此外，还讨论了关于神经炎症性质的突出争议。通过我们的说明，我们试图建立一个以trem2为中心的AD发病机制网络，并希望根据潜在的机制提供潜在的治疗策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ageing Research Reviews 医学-老年医学

CiteScore

19.80

自引率

2.30%

发文量

216

审稿时长

55 days

期刊介绍： With the rise in average human life expectancy, the impact of ageing and age-related diseases on our society has become increasingly significant. Ageing research is now a focal point for numerous laboratories, encompassing leaders in genetics, molecular and cellular biology, biochemistry, and behavior. Ageing Research Reviews (ARR) serves as a cornerstone in this field, addressing emerging trends. ARR aims to fill a substantial gap by providing critical reviews and viewpoints on evolving discoveries concerning the mechanisms of ageing and age-related diseases. The rapid progress in understanding the mechanisms controlling cellular proliferation, differentiation, and survival is unveiling new insights into the regulation of ageing. From telomerase to stem cells, and from energy to oxyradical metabolism, we are witnessing an exciting era in the multidisciplinary field of ageing research. The journal explores the cellular and molecular foundations of interventions that extend lifespan, such as caloric restriction. It identifies the underpinnings of manipulations that extend lifespan, shedding light on novel approaches for preventing age-related diseases. ARR publishes articles on focused topics selected from the expansive field of ageing research, with a particular emphasis on the cellular and molecular mechanisms of the aging process. This includes age-related diseases like cancer, cardiovascular disease, diabetes, and neurodegenerative disorders. The journal also covers applications of basic ageing research to lifespan extension and disease prevention, offering a comprehensive platform for advancing our understanding of this critical field.