Trem2 Deletion Reduces Late-Stage Amyloid Plaque Accumulation, Elevates the Aβ42:Aβ40 Ratio, and Exacerbates Axonal Dystrophy and Dendritic Spine Loss in the PS2APP Alzheimer's Mouse Model

Abstract

Copyright © 2020 Meilandt et al. TREM2 is an Alzheimer’s disease (AD) risk gene expressed in microglia. To study the role of Trem2 in a mouse model of β-amyloidosis, we compared PS2APP transgenic mice versus PS2APP mice lacking Trem2 (PS2APP;Trem2 ko) at ages ranging from 4 to 22 months. Microgliosis was impaired in PS2APP;Trem2 ko mice, with Trem2-deficient microglia showing compromised expression of proliferation/ Wnt-related genes and marked accumulation of ApoE. Plaque abundance was elevated in PS2APP;Trem2 ko females at 6 –7 months; but by 12 or 19 –22 months of age, it was notably diminished in female and male PS2APP;Trem2 ko mice, respectively. Across all ages, plaque morphology was more diffuse in PS2APP;Trem2 ko brains, and the Aβ42:Aβ40 ratio was elevated. The amount of soluble, fibrillar Aβ oligomers also increased in PS2APP;Trem2 ko hippocampi. Associated with these changes, axonal dystrophy was exacerbated from 6 to 7 months onward in PS2APP;Trem2 ko mice, notwithstanding the reduced plaque load at later ages. PS2APP;Trem2 ko mice also exhibited more dendritic spine loss around plaque and more neurofilament light chain in CSF. Thus, aggravated neuritic dystrophy is a more consistent outcome of Trem2 deficiency than amyloid plaque load, suggesting that the microglial packing of Aβ into dense plaque is an important neuroprotective activity.