TREM2 Protein — Triggering Receptor Expressed on Myeloid Cells 2

protein · SciDEX wiki

TREM2 Protein
Full NameTriggering Receptor Expressed on Myeloid Cells 2
Gene[TREM2](/genes/trem2)
UniProt IDQ9NZC2
Protein Length234 amino acids
Molecular Weight~26 kDa (membrane), ~20 kDa (soluble)
StructureIg-like V-type extracellular domain + TM helix + disordered tail
PDB Entries1OMZ, 5W2F, 6VLX, 7WHB, 7VC7
ExpressionMicroglia, macrophages, dendritic cells, osteoclasts
AD RiskR47H, R62H, D87N variants (OR ~2-3)
Associated Diseases ALS, ALS Therapeutic Landscape — Programs by Phase and Modality, ALZHEIMER, ALZHEIMER DISEASE, ALZHEIMER'S
SciDEX Hypotheses Cell-Type Specific TREM2 Upregulation in...
APOE-TREM2 Interaction Modulation...
TREM2-Mediated Selective Aggregate Clear...
KG Connections 1914 edges

Overview

TREM2 (Triggering Receptor Expressed on Myeloid Cells 2) is a type I transmembrane receptor expressed primarily on microglia in the central nervous system. It serves as a critical sensor of lipid-containing ligands and mediates microglial phagocytosis, metabolic adaptation, and the transition to disease-associated microglia (DAM) in Alzheimer’s disease1The mechanistic basis of Alzheimer's disease as an age-related neurodegenerative disorder2020 · Cell · DOI 10.1016/j.cell.2020.09.016Open reference. TREM2 is one of the strongest genetic risk factors for late-onset Alzheimer’s disease—rare loss-of-function variants increase AD risk approximately 2-3 fold, comparable to the effect of a single APOE4 allele2Rare coding variants in PLCG2, ABI3, and TREM2 implicate microglial innate immunity in Alzheimer's disease2017 · Nat Neurosci · DOI 10.1038/s41593-017-0021-8Open reference.

The discovery that TREM2 variants confer significant AD risk sparked intense research into microglial biology and neuroinflammation as therapeutic targets. TREM2’s primary effect is modulating microglial responses to amyloid pathology, positioning it as a key target for immunotherapy3TREM2 deficiency eliminates the neuroprotective function of resolving microglia2015 · Cell Rep · DOI 10.1016/j.cell.2015.12.057Open reference.

Protein Structure

Domain Architecture

Domain Residues Structure Function
Signal peptide 1-18 Secreted Targeting to secretory pathway
Ig-like V-type 19-122 β-sandwich Ligand binding (lipids, ApoE, Aβ)
Stem 123-157 Extended Receptor stability, proteolytic cleavage site
Transmembrane 158-180 α-helix DAP12 association via charged aspartate (D175)
Cytoplasmic 181-234 Disordered No intrinsic signaling motif — requires adaptor

Structural Features

  • Ig-like V-type domain: Classic immunoglobulin beta-sandwich fold with a hydrophobic binding groove enriched in aromatic residues. The pocket accommodates lipid ligands, apolipoproteins, and amyloid-beta oligomers4Structural basis for CD33 dysfunction in Alzheimer's disease2016 · J Biol Chem · DOI 10.1074/jbc.M116.714741Open reference.

  • Transmembrane helix: Contains a charged aspartate residue (D175) that pairs with a lysine in DAP12’s transmembrane domain, forming a stable receptor-adaptor complex.

  • Proteolytic cleavage site: ADAM10/17 cleavage at position H157/S158 releases soluble TREM2 (sTREM2) constitutively. This shedding is upregulated under inflammatory conditions5An Alzheimer-associated TREM2 mutation impairs proteolytic processing of the receptor2020 · Neuron · DOI 10.1016/j.neuron.2020.07.023Open reference.

Crystal Structure Insights

Structural studies reveal:

  • Ligand-binding pocket: A hydrophobic groove accommodating phosphatidylserine, lipidated ApoE, and Aβ oligomers

  • Dimerization interface: TREM2 forms side-by-side dimers, which may be important for high-affinity ligand binding and signaling

  • Antibody epitopes: Therapeutic antibodies bind the Ig-like domain, often near the ligand-binding region

Post-Translational Modifications

Modification Site Effect
N-linked glycosylation N71, N92, N103 Stability, ligand binding
Proteolytic shedding H157/S158 (ADAM10/17) Generates sTREM2
Phosphorylation Y73, Y75 (SRC family) DAP12 ITAM recruitment
γ-secretase cleavage C-terminal stub Following shedding

Soluble TREM2 (sTREM2)

Proteolytic Processing

TREM2 undergoes constitutive and induced proteolytic cleavage:

  • Shedases: ADAM10 and ADAM17 mediate cleavage at the stem domain (H157)

  • sTREM2: Released extracellular fragment (~20 kDa) detectable in cerebrospinal fluid

  • γ-secretase: Following shedding, the remaining membrane stub is cleaved by γ-secretase

sTREM2 as Biomarker

Feature Significance
CSF levels in AD Elevated compared to controls; correlates with tau pathology
Disease progression Higher sTREM2 associated with faster cognitive decline
Diagnostic potential May help distinguish AD from other dementias
Therapeutic implications sTREM2 replacement strategies under investigation

The ratio of sTREM2 to full-length TREM2 may serve as a biomarker for microglial activation status in AD6Increased soluble TREM2 in cerebrospinal fluid predicts amyloid and tau pathology2020 · EMBO Mol Med · DOI 10.1126/scitranslmed.abb3457Open reference.

TREM2 Variants and Alzheimer’s Risk

Risk Variants

Variant Effect on Protein Functional Consequence AD Risk
R47H Altered ligand-binding pocket Reduced ApoE/lipid binding ~3x increased
R62H Surface localization defect Impaired ligand recognition ~2x increased
D87N Altered signaling interface Partial loss of function ~2x increased
Y38C Misfolding ER/Golgi retention Pathogenic (Nasu-Hakola)
Q33X Truncation Complete loss of function Pathogenic (Nasu-Hakola)

Mechanism of Risk

TREM2 AD risk variants exhibit:

  • Reduced ligand binding: Impaired recognition of lipidated ApoE and Aβ

  • Defective signaling: Reduced microglial activation in response to ligands

  • Altered sTREM2: Some variants affect shedding and sTREM2 levels

  • DAM deficiency: Failure to transition to disease-associated microglia

Disease-Associated Microglia (DAM)

TREM2 is essential for the transition from homeostatic microglia to disease-associated microglia (DAM)7A unique microglia type associated with restricting development of Alzheimer's disease2017 · Cell · DOI 10.1016/j.cell.2017.05.018Open reference:

Stage TREM2 Status Markers Function
Homeostatic Required P2RY12, TMEM119, CX3CR1 Surveillance
Early DAM TREM2-dependent APOE, CST7, LPL, TYROBP Phagocytosis, lipid metabolism
Late DAM TREM2-independent ITGAX (CD11c), APOC1, SPP1 Aggregate clearance

DAM Transition Pathway

The transition requires TREM2 signaling and is arrested in TREM2-deficient states8TREM2 deficiency impairs transition from homeostatic to DAM microglia2017 · EMBO Mol Med · DOI 10.15252/emmm.201707673Open reference:

flowchart TD
    A["Homeostatic<br/>Microglia"] -->|"Abeta/Lipid<br/>Exposure"| B["TREM2-dependent<br/>Early DAM"]
    B -->|"Continued<br/>Activation"| C["TREM2-independent<br/>Late DAM"]

    A -->|"P2RY12+<br/>TMEM119+<br/>CX3CR1+"| A_label["Homeostatic<br/>Markers"]
    B -->|"APOE+<br/>CST7+<br/>LPL+<br/>TYROBP+"| B_label["Early DAM<br/>Markers"]
    C -->|"ITGAX+<br/>APOC1+<br/>SPP1+"| C_label["Late DAM<br/>Markers"]

    style A fill:#0a1929,stroke:#333
    style B fill:#3a3000,stroke:#333
    style C fill:#3b1114,stroke:#333

Functional consequences of arrest:

  • Impaired Abeta phagocytosis and clearance

  • Reduced lipid droplet accumulation for phagocytic energy

  • Altered inflammatory response to amyloid

  • Increased neuronal death around plaques

TREM2 and Lipid Metabolism

Microglial lipid metabolism is tightly regulated by TREM2 signaling9TREM2 regulates microglial metabolic adaptation to amyloid pathology2020 · Nat Neurosci · DOI 10.1038/s41593-020-0597-0Open reference:

Key metabolic changes upon TREM2 activation:

  • Glycolysis upregulation: Increased glucose metabolism to fuel phagocytosis

  • Lipid droplet formation: Accumulation of lipid droplets for energy storage

  • Cholesterol efflux: Regulation of intracellular cholesterol levels

  • Phospholipid remodeling: Membrane composition changes for phagocytosis

ApoE as central lipid shuttle10TREM2 interacts with ApoE in lipid binding and enhances ApoE-mediated microglial activation2020 · J Neurosci · DOI 10.1523/JNEUROSCI.1555-19.2020Open reference:

  • TREM2 recognizes lipidated ApoE particles as primary ligands

  • ApoE4 shows reduced TREM2 binding (Kd ~ 300 nM vs ~ 100 nM for ApoE3)

  • This partially explains ApoE4’s increased AD risk through impaired microglial activation

Cross-Talk with Other Microglial Receptors

TREM2-CD33 Balance

TREM2 (activating) and CD33 (inhibitory) represent a balance regulating microglial function:

Parameter TREM2 CD33
Signaling ITAM (via DAP12) ITIM (via SHP1/2)
Effect Activates phagocytosis Inhibits phagocytosis
AD association Loss-of-function risk Gain-of-expression risk
Therapeutic Agonists Antagonists

TREM2-CX3CR1 Interaction

Feature TREM2 CX3CR1
Ligand Lipids, ApoE, Aβ Fractalkine (CX3CL1)
Effect Phagocytosis activation Neuroprotective surveillance
Expression DAM-enriched Homeostatic microglia
AD role Amyloid clearance Neuron-microglia communication

Signaling Pathways

Core Signaling Cascade

  1. Ligand binding → TREM2 dimerization/clustering

  2. DAP12 ITAM phosphorylation by SRC family kinases

  3. SYK recruitment and activation

  4. Downstream pathways:

    • PI3K/AKT → cell survival, metabolism

    • MAPK/ERK → gene transcription, proliferation

    • NF-κB → inflammatory gene expression

    • mTOR → metabolic adaptation

Transcriptional Targets

Target Function
APOE Lipid metabolism, Aβ clearance
C1QA/B/C Complement component
CST7 Lysosomal cysteine protease
LPL Lipid metabolism
TREM2 Feedback regulation

Therapeutic Targeting

Agonist Antibodies in Clinical Development

Drug Company Mechanism Clinical Status
AL002A Alector/AbbVie TREM2 agonist Phase 2 in early AD (ACTIVE)
AL003 Alector TREM2 agonist Discontinued
HT-1807 Himarq/Fujifilm TREM2 agonist Preclinical

Mechanism of Antibody Therapy

Agonistic antibodies work by:

  • Binding the TREM2 extracellular domain

  • Inducing receptor clustering (mimicking ligand binding)

  • Activating downstream signaling in the absence of ligand

  • Promoting microglial DAM transition

Summary

TREM2 represents a pivotal microglial receptor linking neuroinflammation to neurodegeneration. Its role as an AD risk factor, combined with its tractability as a cell surface target and active clinical trials, makes it one of the most promising therapeutic targets in Alzheimer’s disease. The ongoing AL002 Phase 2 trials will test whether microglial activation via TREM2 agonism can modify disease progression.

See Also

References

  1. The mechanistic basis of Alzheimer's disease as an age-related neurodegenerative disorder Deczkowska A, et al. 2020 · Cell · DOI 10.1016/j.cell.2020.09.016
  2. Rare coding variants in PLCG2, ABI3, and TREM2 implicate microglial innate immunity in Alzheimer's disease Sims R, et al. 2017 · Nat Neurosci · DOI 10.1038/s41593-017-0021-8
  3. TREM2 deficiency eliminates the neuroprotective function of resolving microglia Wang Y, et al. 2015 · Cell Rep · DOI 10.1016/j.cell.2015.12.057
  4. Structural basis for CD33 dysfunction in Alzheimer's disease Kober DL, et al. 2016 · J Biol Chem · DOI 10.1074/jbc.M116.714741
  5. An Alzheimer-associated TREM2 mutation impairs proteolytic processing of the receptor Schlepckow K, et al. 2020 · Neuron · DOI 10.1016/j.neuron.2020.07.023
  6. Increased soluble TREM2 in cerebrospinal fluid predicts amyloid and tau pathology Ewers M, et al. 2020 · EMBO Mol Med · DOI 10.1126/scitranslmed.abb3457
  7. A unique microglia type associated with restricting development of Alzheimer's disease Keren-Shaul H, et al. 2017 · Cell · DOI 10.1016/j.cell.2017.05.018
  8. TREM2 deficiency impairs transition from homeostatic to DAM microglia Mazaheri F, et al. 2017 · EMBO Mol Med · DOI 10.15252/emmm.201707673
  9. TREM2 regulates microglial metabolic adaptation to amyloid pathology Zhou Y, et al. 2020 · Nat Neurosci · DOI 10.1038/s41593-020-0597-0
  10. TREM2 interacts with ApoE in lipid binding and enhances ApoE-mediated microglial activation Nugent AA, et al. 2020 · J Neurosci · DOI 10.1523/JNEUROSCI.1555-19.2020

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