| Literature DB >> 36107206 |
Na Zhao1, Wenhui Qiao1, Fuyao Li1, Yingxue Ren2, Jiaying Zheng3,4, Yuka A Martens1, Xusheng Wang5, Ling Li5, Chia-Chen Liu1, Kai Chen1, Yiyang Zhu1, Tadafumi C Ikezu1, Zonghua Li1, Axel D Meneses1, Yunjung Jin1, Joshua A Knight1, Yixing Chen1, Ligia Bastea6, Cynthia Linares1, Berkiye Sonustun1, Lucy Job1, Madeleine L Smith1, Manling Xie3,4, Yong U Liu3, Anthony D Umpierre3, Koichiro Haruwaka3, Zachary S Quicksall2, Peter Storz6, Yan W Asmann2, Long-Jun Wu1,3,4, Guojun Bu1,4.
Abstract
TREM2 is exclusively expressed by microglia in the brain and is strongly linked to the risk for Alzheimer's disease (AD). As microglial responses modulated by TREM2 are central to AD pathogenesis, enhancing TREM2 signaling has been explored as an AD therapeutic strategy. However, the effective therapeutic window targeting TREM2 is unclear. Here, by using microglia-specific inducible mouse models overexpressing human wild-type TREM2 (TREM2-WT) or R47H risk variant (TREM2-R47H), we show that TREM2-WT expression reduces amyloid deposition and neuritic dystrophy only during the early amyloid seeding stage, whereas TREM2-R47H exacerbates amyloid burden during the middle amyloid rapid growth stage. Single-cell RNA sequencing reveals suppressed disease-associated microglia (DAM) signature and reduced DAM population upon TREM2-WT expression in the early stage, whereas upregulated antigen presentation pathway is detected with TREM2-R47H expression in the middle stage. Together, our findings highlight the dynamic effects of TREM2 in modulating AD pathogenesis and emphasize the beneficial effect of enhancing TREM2 function in the early stage of AD development.Entities:
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Year: 2022 PMID: 36107206 PMCID: PMC9481739 DOI: 10.1084/jem.20212479
Source DB: PubMed Journal: J Exp Med ISSN: 0022-1007 Impact factor: 17.579