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. 2021 Apr 21;109(8):1283-1301.e6.
doi: 10.1016/j.neuron.2021.02.010. Epub 2021 Mar 5.

Trem2 restrains the enhancement of tau accumulation and neurodegeneration by β-amyloid pathology

Seung-Hye Lee  1 William J Meilandt  2 Luke Xie  3 Vineela D Gandham  3 Hai Ngu  4 Kai H Barck  3 Mitchell G Rezzonico  5 Jose Imperio  1 Guita Lalehzadeh  1 Melanie A Huntley  5 Kimberly L Stark  1 Oded Foreman  4 Richard A D Carano  3 Brad A Friedman  5 Morgan Sheng  1 Amy Easton  1 Christopher J Bohlen  1 David V Hansen  6
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Free article

Trem2 restrains the enhancement of tau accumulation and neurodegeneration by β-amyloid pathology

Seung-Hye Lee et al. Neuron. .
Free article

Abstract

Loss-of-function TREM2 mutations strongly increase Alzheimer's disease (AD) risk. Trem2 deletion has revealed protective Trem2 functions in preclinical models of β-amyloidosis, a prominent feature of pre-diagnosis AD stages. How TREM2 influences later AD stages characterized by tau-mediated neurodegeneration is unclear. To understand Trem2 function in the context of both β-amyloid and tau pathologies, we examined Trem2 deficiency in the pR5-183 mouse model expressing mutant tau alone or in TauPS2APP mice, in which β-amyloid pathology exacerbates tau pathology and neurodegeneration. Single-cell RNA sequencing in these models revealed robust disease-associated microglia (DAM) activation in TauPS2APP mice that was amyloid-dependent and Trem2-dependent. In the presence of β-amyloid pathology, Trem2 deletion further exacerbated tau accumulation and spreading and promoted brain atrophy. Without β-amyloid pathology, Trem2 deletion did not affect these processes. Therefore, TREM2 may slow AD progression and reduce tau-driven neurodegeneration by restricting the degree to which β-amyloid facilitates the spreading of pathogenic tau.

Keywords: Alzheimer’s disease; MRI; TREM2; disease-associated microglia; gliosis; microglia; neurodegeneration; neuroinflammation; single-cell RNA sequencing; tauopathy.

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Conflict of interest statement

Declaration of interests All authors are current or former employees of Genentech, Inc., with interests in developing novel therapeutic drugs for neurodegenerative diseases at the time of conducting this research.

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