特雷姆2
小胶质细胞
受体
细胞生物学
生物
报告基因
调节器
兴奋剂
转基因
基因
磷酸化
基因表达
HEK 293细胞
转基因小鼠
信号转导
操纵子
下调和上调
基因表达调控
氧化磷酸化
生物途径
中枢神经系统
化学
吞噬作用
脂质代谢
增强子
肝X受体
神经科学
神经退行性变
神经免疫学
基因表达谱
作者
Astrid Feiten,Kilian Dahm,Kai Schlepckow,Bettina van Lengerich,Jung Ho Suh,Anika Reifschneider,Benedikt Wefers,Laura M. Bartos,Karin Wind,Lis de Weerd,T Ulas,Elena De-Domenico,Janne Lamberty,Stefan Paulusch,Benjamin Tast,Tamisa Honda,Stefan A. Müller,Matthias Becker,Igor Khalin,Alessio Ricci
标识
DOI:10.1038/s41467-026-68706-8
摘要
Abstract Triggering receptor expressed on myeloid cells 2 (TREM2) is a central regulator of microglial activity and loss-of-function coding variants are major risk factors for late onset Alzheimer’s disease (LOAD). To better understand the molecular and functional changes associated with TREM2 signalling in microglia, we generated a TREM2 reporter mouse. In APP transgenic animals, bulk RNA-sequencing of isolated microglia sorted based on reporter expression highlighted TREM2 level-related changes in major immunometabolic pathways, and enrichment of genes in oxidative phosphorylation and cholesterol metabolism in microglia with increased TREM2 expression. Metabolic and lipidomic profiling of sorted microglia showed that, independent of Aβ pathology, TREM2 expression correlated with signatures consistent with increased cellular redox, energetics, and cholesterol homoeostasis. In accordance, metabolic activity correlated with phagocytic capacity. Finally, we performed chronic treatment with a TREM2 agonist antibody and identified a window of TREM2 expression where microglia are most responsive, thereby informing clinical applications of TREM2 agonists.
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