Alzheimer's disease‐associated R47H TREM2 increases, but wild‐type TREM2 decreases, microglial phagocytosis of synaptosomes and neuronal loss

Triggering receptor on myeloid cells 2 (TREM2) is an innate immune receptor, upregulated on the surface of microglia associated with amyloid plaques in Alzheimer's disease (AD). Individuals heterozygous for the R47H variant of TREM2 have greatly increased risk of developing AD. We examined the...

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Bibliographic Details
Published in:Glia 2023-04, Vol.71 (4), p.974-990
Main Authors: Popescu, Alma S., Butler, Claire A., Allendorf, David H., Piers, Thomas M., Mallach, Anna, Roewe, Julian, Reinhardt, Peter, Cinti, Alessandro, Redaelli, Loredana, Boudesco, Christophe, Pradier, Laurent, Pocock, Jennifer M., Thornton, Peter, Brown, Guy C.
Format: Article
Language:English
Subjects:
Alzheimer Disease - genetics
Alzheimer Disease - metabolism
Alzheimer Disease - pathology
Alzheimer's disease
Amyloid
Animals
Annexin V
Beads
cystatin F
Cystatins
Cystatins - metabolism
Cysteine proteinase
Humans
iPSC‐derived microglia
Membrane Glycoproteins - genetics
Membrane Glycoproteins - metabolism
Mice
Microglia
Microglia - metabolism
Myeloid cells
Neurodegenerative diseases
Neurons
Neurons - pathology
Phagocytosis
Phagocytosis - genetics
Phosphatidylserine
Phosphatidylserines - metabolism
Protease inhibitors
Proteinase inhibitors
R47H variant
Receptors
Receptors, Immunologic - genetics
Receptors, Immunologic - metabolism
Senile plaques
Synapses
Synaptosomes
Synaptosomes - metabolism
Synaptosomes - pathology
TREM2
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Summary:Triggering receptor on myeloid cells 2 (TREM2) is an innate immune receptor, upregulated on the surface of microglia associated with amyloid plaques in Alzheimer's disease (AD). Individuals heterozygous for the R47H variant of TREM2 have greatly increased risk of developing AD. We examined the effects of wild‐type (WT), R47H and knock‐out (KO) of human TREM2 expression in three microglial cell systems. Addition of mouse BV‐2 microglia expressing R47H TREM2 to primary mouse neuronal cultures caused neuronal loss, not observed with WT TREM2. Neuronal loss was prevented by using annexin V to block exposed phosphatidylserine, an eat‐me signal and ligand of TREM2, suggesting loss was mediated by microglial phagocytosis of neurons exposing phosphatidylserine. Addition of human CHME‐3 microglia expressing R47H TREM2 to LUHMES neuronal‐like cells also caused loss compared to WT TREM2. Expression of R47H TREM2 in BV‐2 and CHME‐3 microglia increased their uptake of phosphatidylserine‐beads and synaptosomes versus WT TREM2. Human iPSC‐derived microglia with heterozygous R47H TREM2 had increased phagocytosis of synaptosomes vs common‐variant TREM2. Additionally, phosphatidylserine liposomes increased activation of human iPSC‐derived microglia expressing homozygous R47H TREM2 versus common‐variant TREM2. Finally, overexpression of TREM2 in CHME‐3 microglia caused increased expression of cystatin F, a cysteine protease inhibitor, and knock‐down of cystatin F increased CHME‐3 uptake of phosphatidylserine‐beads. Together, these data suggest that R47H TREM2 may increase AD risk by increasing phagocytosis of synapses and neurons via greater activation by phosphatidylserine and that WT TREM2 may decrease microglial phagocytosis of synapses and neurons via cystatin F. Main Points R47H TREM2 variant, linked to Alzheimer's disease, increases neuronal loss and microglial phagocytosis likely via increased activation by phosphatidylserine. TREM2 increases cystatin F expression which inhibits general microglial phagocytosis.
ISSN:0894-1491
1098-1136
DOI:10.1002/glia.24318