ADAM10 — A Disintegrin And Metalloproteinase Domain 10

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adam10
Gene Symbol ADAM10
Full Name A Disintegrin And Metalloproteinase Domain 10
Chromosomal Location 15q21.3
NCBI Gene ID 102
Ensembl ID ENSG00000137845
UniProt ID O14672
OMIM 602192
Protein Length 748 amino acids
Substrate Function
**APP (Amyloid Precursor Protein)** Non-amyloidogenic cleavage → sAPPα
**Notch receptors** Signaling, neurodevelopment
**N-cadherin** Cell adhesion, synaptic plasticity
**E-cadherin** Cell-cell adhesion
**EphA receptors** Axon guidance, synaptogenesis
**TREM2** Microglial activation
**Prion protein (PrP)** Cellular homeostasis
**IL-6R** Inflammation
**TNF-α** Pro-inflammatory cytokine
Mutation Effect
**p.Q170H** >70% reduced α-secretase activity; 1.5-3.5x elevated Aβ
**p.R181G** Similar reduction in activity; elevated Aβ
**p.Tyr167*** Truncated non-functional protein
Strategy Mechanism
**Retinoids (Acitretin)** Transcriptional upregulation
**PPARγ agonists** Increase ADAM10 expression
**LXR/RXR agonists** Transcriptional activation
**HDAC inhibitors** Epigenetic derepression
**Etazolate (EHT 0202)** Direct activation
**BACE1 inhibition** Indirectly favor α-cleavage
Region Expression Level
Cerebral cortex High
Hippocampus High
Cerebellum High
Thalamus Moderate
Basal ganglia Moderate
Substantia nigra Moderate
Pathway Interaction
Notch signaling ADAM10 is primary Notch sheddase
Wnt/β-catenin Cross-talk in neuroprotection
MAPK/ERK Activity-regulated ADAM10
PKC Phosphorylation modulates activity
Model Description
ADAM10 knockout mice Complete loss of ADAM10
Conditional neuronal KO Neuron-specific deletion
ADAM10 overexpressing mice Neuronal overexpression
Q170H knock-in Patient mutation
Associated Diseases Aging, Als, Alzheimer, Alzheimer's Disease, Autoimmune
KG Connections 104 edges

Introduction

ADAM10 (A Disintegrin And Metalloproteinase Domain-Containing Protein 10) is a gene located on chromosome 15q21.3 that encodes the principal α-secretase responsible for the non-amyloidogenic cleavage of the Amyloid Precursor Protein (APP). By cleaving APP within the amyloid-beta domain, ADAM10 precludes the generation of toxic amyloid-beta peptides, making it a key protective factor against Alzheimer’s Disease (AD) 1Potential late-onset Alzheimer's Disease-associated mutations in the ADAM10 gene attenuate alpha-secretase activity2009 · Hum Mol Genet · DOI 10.1093/hmg/ddp323 · PMID 19181795Open reference2ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation by Impairing Prodomain Chaperone Function2014 · Neuron · DOI 10.1016/j.neuron.2014.06.032 · PMID 25002037Open reference.

ADAM10 is a member of the ADAM (A Disintegrin And Metalloproteinase) family of transmembrane proteins, which play important roles in cell adhesion, proteolysis, and signaling. As the constitutive α-secretase in neurons, ADAM10 is essential for maintaining the balance between amyloidogenic and non-amyloidogenic APP processing—a balance that is central to the amyloid hypothesis of AD pathogenesis.

Loss-of-function mutations in ADAM10 have been identified in families with both late-onset and early-onset Alzheimer’s Disease, establishing it as a bona fide AD susceptibility gene 3α-Secretase nonsense mutation (ADAM10 Tyr167*) in familial Alzheimer's Disease2020 · Acta Neuropathol Commun · DOI 10.1186/s13195-020-00708-0 · PMID 33293482Open reference. The therapeutic potential of ADAM10 modulation has been extensively investigated, as enhancing ADAM10 activity could simultaneously reduce toxic Aβ production and increase neuroprotective sAPPα levels 4Therapeutic potential of ADAM10 modulation in Alzheimer's Disease: a review of the current evidence2023 · Cell Mol Biol Lett · DOI 10.1186/s12964-023-01072-w · PMID 37620554Open reference.

Gene Information

Protein Structure and Function

Domain Architecture

ADAM10 is synthesized as a 748-amino-acid zymogen with the following domain structure 5ADAM10 functions in development and disease2009 · Biochim Biophys Acta · PMID 19027847Open reference:

  1. Prodomain (residues 1-214): Functions as an intramolecular chaperone for proper folding; removed by furin/proprotein convertases during maturation. AD mutations Q170H and R181G reside in this domain 2ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation by Impairing Prodomain Chaperone Function2014 · Neuron · DOI 10.1016/j.neuron.2014.06.032 · PMID 25002037Open reference.

  2. Metalloproteinase domain (residues 215-467): Contains the catalytic zinc-binding motif HEXXHXXGXXH that mediates substrate cleavage. The catalytic zinc ion (Zn²⁺) is essential for proteolytic activity.

  3. Disintegrin domain (residues 468-535): Participates in substrate recognition and cell-cell interactions. Contains an RGD sequence motif that can mediate integrin binding.

  4. Cysteine-rich domain (residues 536-654): Mediates protein-protein interactions and contributes to substrate specificity.

  5. Transmembrane domain (residues 655-677): Single-pass membrane anchor (type I membrane protein).

  6. Cytoplasmic tail (residues 678-748): Contains regulatory motifs including a PDZ-binding motif and serine/threonine phosphorylation sites that regulate trafficking and activity.

Catalytic Mechanism

The metalloproteinase domain contains the HExxHxxGxxH zinc-binding motif coordinated to a catalytic zinc ion. The mechanism involves:

  1. Zinc-bound water molecule: Acts as the nucleophile

  2. Glu²⁴² (general base): Activates the water molecule

  3. His²¹⁵/His²¹⁹/His²²⁵ (catalytic triad): Coordinate zinc ion

  4. Met²³⁶ (Met-turn): Provides structural support

Substrate Specificity

ADAM10 is a promiscuous “sheddase” that cleaves the ectodomains of numerous transmembrane proteins 6ADAM10-mediated ectodomain shedding as therapeutic target2018 · Handb Exp Pharmacol:

Normal Physiological Functions

Non-Amyloidogenic APP Processing

ADAM10 cleaves APP between residues Lys⁶⁸⁷ and Leu⁶⁸⁸ (within the Aβ sequence), generating:

  • Soluble APPα (sAPPα): Released into the extracellular space

  • C-terminal fragment α (CTFα/C83): Membrane-bound fragment

This cleavage precludes Aβ generation because it cuts within the Aβ peptide domain 7A disintegrin-metalloproteinase ADAM10 is implicated in processing of amyloid precursor protein2001 · J Cell Sci · PMID 11748852Open reference8ADAM10 is the major alpha-secretase in the neuronal membrane2008 · PMID 18003608Open reference.

sAPPα Functions

The released sAPPα ectodomain has multiple neuroprotective properties:

  1. Neurotrophic effects: Promotes neuronal survival and differentiation

  2. Synaptic plasticity: Enhances LTP and memory formation

  3. Anti-inflammatory: Modulates microglial activation

  4. Anti-oxidant: Reduces oxidative stress

  5. Neurogenesis: Stimulates neural stem cell proliferation

Competition with BACE1

ADAM10 and BACE1 (β-secretase) compete for APP substrate at the cell surface and in endosomes 9ADAM10 and BACE1 activity in brain determines processing of APP2010 · Exp Neurol · PMID 20600196Open reference. The relative activity of these two enzymes determines the balance between:

  • Non-amyloidogenic pathway: ADAM10 → sAPPα + C83 (protective)

  • Amyloidogenic pathway: BACE1 → sβAPP + C99 → Aβ (toxic)

This balance is central to AD pathogenesis.

Notch Signaling

ADAM10 is required for Notch receptor activation through proteolytic cleavage 2ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation by Impairing Prodomain Chaperone Function2014 · Neuron · DOI 10.1016/j.neuron.2014.06.032 · PMID 25002037Open reference0:

  1. Initial cleavage by ADAM10 (extracellular domain shedding)

  2. γ-secretase cleavage (intramembrane)

This pathway is essential for:

  • Neurodevelopment

  • Cell fate determination

  • Synaptic plasticity

Disease Associations

Alzheimer’s Disease

ADAM10 mutations are linked to Alzheimer’s Disease through loss of α-secretase function:

Key Mutations

Prodomain Missense Mutations (Late-Onset AD):

Mechanism: These missense mutations impair the intramolecular chaperone function of the ADAM10 prodomain, leading to:

  • Improper enzyme folding

  • Reduced maturation

  • Decreased surface expression

  • Diminished catalytic activity

In Vivo Evidence: In Tg2576 AD transgenic mice, both Q170H and R181G mutations attenuated ADAM10 α-secretase activity, shifted APP processing toward β-secretase-mediated cleavage, and enhanced Aβ plaque burden and reactive gliosis 2ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation by Impairing Prodomain Chaperone Function2014 · Neuron · DOI 10.1016/j.neuron.2014.06.032 · PMID 25002037Open reference1.

Therapeutic Implications

ADAM10 is a prime therapeutic target for AD because enhancing its activity could simultaneously:

  1. Reduce toxic Aβ production

  2. Increase neuroprotective sAPPα levels

Strategies to Enhance ADAM10 Activity

Challenges

  • ADAM10 has numerous substrates beyond APP, raising concerns about off-target effects (particularly Notch-related toxicity)

  • Achieving CNS-specific ADAM10 modulation remains technically challenging

  • No ADAM10-based therapy has yet reached phase III clinical trials for AD

Expression Patterns

Brain Expression

ADAM10 is widely expressed in the central nervous system:

Cellular Localization

  • Neuronal membrane: Primary location for APP cleavage

  • Endosomes: Active site of APP processing

  • Synaptic vesicles: Regulated release of sAPPα

Regulation

ADAM10 activity is regulated at multiple levels 2ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation by Impairing Prodomain Chaperone Function2014 · Neuron · DOI 10.1016/j.neuron.2014.06.032 · PMID 25002037Open reference2:

  1. Transcription: Influenced by retinoic acid, cytokines, and neuronal activity

  2. Prodomain processing: Furin-mediated activation

  3. Trafficking: RAB GTPases regulate movement to membrane

  4. Post-translational modification: Phosphorylation affects activity

Molecular Pathways

APP Processing Pathway

APP (transmembrane)
    ↓
    ├─→ ADAM10 (α-secretase) → sAPPα + C83 (non-amyloidogenic)
    │
    └─→ BACE1 (β-secretase) → sβAPP + C99 → γ-secretase → Aβ (amyloidogenic)

Signaling Interactions

Animal Models

Key Publications

  1. Kim M, et al. (2009) Potential late-onset AD-associated mutations in ADAM10 attenuate alpha-secretase activity. Hum Mol Genet 18:3987-3996

  2. Lammich S, et al. (2014) ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation. Neuron 83:1204-1217

  3. Peters F, et al. (2020) α-Secretase nonsense mutation (ADAM10 Tyr167*) in familial AD. Acta Neuropathol Commun 8:160

  4. Tang BL, et al. (2023) Therapeutic potential of ADAM10 modulation in AD. Cell Mol Biol Lett 28:44

  5. Endres K, Deller T. (2017) Regulation of ADAM10 in vitro and in vivo. Front Mol Neurosci 10:56

  6. Kuhn PH, et al. (2010) ADAM10 is the physiologically relevant α-secretase in neurons. EMBO J 29:1617-1629

See Also

References

  1. Potential late-onset Alzheimer's Disease-associated mutations in the ADAM10 gene attenuate alpha-secretase activity Kim M, et al 2009 · Hum Mol Genet · DOI 10.1093/hmg/ddp323 · PMID 19181795
  2. ADAM10 Missense Mutations Potentiate β-Amyloid Accumulation by Impairing Prodomain Chaperone Function Lammich S, et al 2014 · Neuron · DOI 10.1016/j.neuron.2014.06.032 · PMID 25002037
  3. α-Secretase nonsense mutation (ADAM10 Tyr167*) in familial Alzheimer's Disease Peters F, et al 2020 · Acta Neuropathol Commun · DOI 10.1186/s13195-020-00708-0 · PMID 33293482
  4. Therapeutic potential of ADAM10 modulation in Alzheimer's Disease: a review of the current evidence Tang BL, et al 2023 · Cell Mol Biol Lett · DOI 10.1186/s12964-023-01072-w · PMID 37620554
  5. ADAM10 functions in development and disease Saftig P, et al 2009 · Biochim Biophys Acta · PMID 19027847
  6. ADAM10-mediated ectodomain shedding as therapeutic target Deuss M, et al 2018 · Handb Exp Pharmacol
  7. A disintegrin-metalloproteinase ADAM10 is implicated in processing of amyloid precursor protein Postina R, et al 2001 · J Cell Sci · PMID 11748852
  8. ADAM10 is the major alpha-secretase in the neuronal membrane zur Hove E, et al 2008 · PMID 18003608
  9. ADAM10 and BACE1 activity in brain determines processing of APP Seyfried NT, et al 2010 · Exp Neurol · PMID 20600196
  10. Regulation of Alpha-Secretase ADAM10 In vitro and in vivo: Genetic, Epigenetic, and Protein-Based Mechanisms Endres K, Deller T 2017 · Front Mol Neurosci · DOI 10.3389/fnmol.2017.00056 · PMID 28769790

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