| Reelin Protein | |
|---|---|
| Approach | Status |
| Recombinant Reelin protein | Research |
| Reelin-enhancing compounds | Preclinical |
| Gene therapy | Preclinical |
| Peptide analogs | Research |
| Associated Diseases | ALS, ALZHEIMER, ALZHEIMER'S DISEASE, Aging, Als |
| KG Connections | 153 edges |
Pathway Diagram
flowchart TD
REELIN["REELIN"]
NEURONAL_MIGRATION["NEURONAL MIGRATION"]
REELIN -->|"regulates"| NEURONAL_MIGRATION
dendritic_growth_and_branching["dendritic growth and branching"]
REELIN -->|"regulates"| dendritic_growth_and_branching
dendritic_spine_formation["dendritic spine formation"]
REELIN -->|"regulates"| dendritic_spine_formation
synaptogenesis["synaptogenesis"]
REELIN -->|"regulates"| synaptogenesis
synaptic_plasticity["synaptic plasticity"]
REELIN -->|"regulates"| synaptic_plasticity
lissencephaly["lissencephaly"]
REELIN -->|"implicated in"| lissencephaly
AUTISM["AUTISM"]
REELIN -->|"implicated in"| AUTISM
schizophrenia["schizophrenia"]
REELIN -->|"implicated in"| schizophrenia
DAB1["DAB1"]
DAB1 -->|"interacts with"| REELIN
style REELIN fill:#1a237e,stroke:#4fc3f7,color:#4fc3f7
style NEURONAL_MIGRATION fill:#263238,stroke:#90a4ae,color:#90a4ae
style dendritic_growth_and_branching fill:#e65100,stroke:#ff8a65,color:#ff8a65
style dendritic_spine_formation fill:#e65100,stroke:#ff8a65,color:#ff8a65
style synaptogenesis fill:#e65100,stroke:#ff8a65,color:#ff8a65
style synaptic_plasticity fill:#e65100,stroke:#ff8a65,color:#ff8a65
style lissencephaly fill:#4a0000,stroke:#ef5350,color:#ef5350
style AUTISM fill:#4a0000,stroke:#ef5350,color:#ef5350
style schizophrenia fill:#4a0000,stroke:#ef5350,color:#ef5350
style DAB1 fill:#263238,stroke:#90a4ae,color:#90a4aeKnowledge graph relationships for REELIN (316 total edges in KG)
Introduction
Reelin Protein is an important component in the neurobiology of neurodegenerative diseases. This page provides detailed information about its structure, function, and role in disease processes.
Overview
Reelin is a large extracellular matrix protein that plays critical roles in neuronal migration, cortical layer formation, and synaptic plasticity during brain development and in the adult brain. Reelin signaling through ApoE receptors modulates dendritic spine morphology and synaptic function. Reelin dysfunction is implicated in Alzheimer’s disease and neuropsychiatric disorders. 1(2002)Open reference
This protein is involved in: 2(2006)Open reference
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Neuronal migration: Essential for cortical layer formation
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Synaptic plasticity: Regulates spine density and function
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Dendritic development: Controls dendritic arborization
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Disease associations: Alzheimer’s disease, autism, schizophrenia, lissencephaly
Reelin is a large extracellular glycoprotein that plays essential roles in neuronal migration, synaptic plasticity, and cognitive function. It is a key regulator of brain development and is critically involved in the pathogenesis of Alzheimer’s Disease and neuropsychiatric disorders. 3(2005)Open reference
Structure
Gene and Protein Overview
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Gene Symbol: RELN
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Gene ID: 5649
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Chromosome: 7q22.1
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Protein Length: 3,460 amino acids
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Molecular Weight: ~388 kDa (one of the largest secreted proteins)
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UniProt ID: P78536
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PDB Structures: 7JX6, 7JX7 (reelin domains)
Reelin is a member of the reelin family of extracellular matrix proteins. It contains an N-terminal signal peptide, followed by a Reelin domain, 8 EGF-like repeats, and 3 Reelin repeat domains (R1-R3), each containing 300 amino acids.
Domain Organization
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Signal peptide (aa 1-27): Secretory pathway targeting
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Reelin N-terminal domain (aa 28-189): Receptor binding
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EGF-like domains (aa 190-327): Protein-protein interactions
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Reelin repeat domains R1-R3 (aa 328-3460): Core functional domains
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R1: aa 328-711
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R2: aa 712-1095
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R3: aa 1096-1480
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C-terminal region (aa 1481-3460): Full-length reelin contains 8 repeats
Normal Function
Neuronal Migration
Reelin is best known for its role in cortical lamination:4(1995)Open reference
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Secreted by Cajal-Retzius cells in the marginal zone
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Guides radial migration of neurons during development
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Controls proper positioning of pyramidal neurons in cortex
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Essential for layer formation in hippocampus and cerebellum
Synaptic Plasticity
In the adult brain, Reelin modulates:1(2002)Open reference
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Long-term potentiation (LTP) and depression (LTD)
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Dendritic spine morphology and density
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Synaptic vesicle release probability
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NMDA receptor trafficking and function
Cognitive Function
Reelin is essential for:
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Spatial learning and memory
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Contextual fear conditioning
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Social behavior
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Mood regulation
Role in Disease
Alzheimer’s Disease
Reelin is significantly implicated in AD pathogenesis:2(2006)Open reference
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Reelin expression is reduced in AD brains, particularly in the entorhinal cortex and hippocampus
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Amyloid-beta (Aβ) oligomers suppress Reelin expression
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Reduced Reelin contributes to synaptic dysfunction and memory impairment
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Reelin interacts with APP and affects amyloid precursor protein processing
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Reelin-containing neurons are vulnerable in AD
Reelin-Aβ Interaction:
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Aβ oligomers bind to Reelin receptors, disrupting downstream signaling
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This leads to impaired synaptic plasticity
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Contributes to early memory deficits before significant amyloid deposition
Schizophrenia and Bipolar Disorder
Reelin is a major susceptibility factor:3(2005)Open reference
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RELN promoter hypermethylation reduces expression
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Reduced Reelin protein in prefrontal cortex
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Genetic variants associated with disease risk
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Developmental disruption of cortical layering
Autism Spectrum Disorder
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Reduced Reelin levels in some ASD patients
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Mouse models show Reelin haploinsufficiency leads to ASD-like behaviors
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Interaction with autism-linked genes (CNTNAP2, FLNB)
Epilepsy
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Reelin mutations cause lissencephaly in humans
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Altered Reelin signaling contributes to epileptogenesis
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Reelin supplementation reduces seizure frequency in models
Therapeutic Targeting
Reelin-Based Therapies
Clinical Trials
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No active clinical trials for Reelin-targeted therapy as of 2026
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Biomarker development ongoing (Reelin in CSF)
Mechanism-Based Strategies
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Aβ-Reelin interaction blockers: Prevent Aβ-mediated Reelin dysfunction
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Dab1 activators: Downstream signaling molecule enhancement
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LRP8/ApoER2 agonists: Reelin receptor stimulation
Background
The study of Reelin Protein has evolved significantly over the past decades. Research in this area has revealed important insights into the underlying mechanisms of neurodegeneration and continues to drive therapeutic development.
Historical context and key discoveries in this field have shaped our current understanding and will continue to guide future research directions.
See Also
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Amyloid Precursor Protein (APP)
Brain Atlas Resources
The following resources from the Allen Brain Atlas provide expression and connectivity data for this protein/gene:
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Allen Human Brain Atlas - Gene Expression: Searchable gene expression database from adult human brain
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Allen Brain Atlas - RNA Sequencing: RNA sequencing data across brain regions
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Allen Cell Type Atlas: Single-cell transcriptomic data for cell type classification
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Allen Mouse Brain Atlas: Comprehensive mouse brain gene expression database
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BrainSpan Atlas of the Developing Human Brain: Developmental expression data across brain regions and ages
External Links
References
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