gene

NRF2

Entity Detail — Knowledge Graph Node

Understanding Entity Pages

This page aggregates everything SciDEX knows about NRF2: its mechanistic relationships (Knowledge Graph edges), hypotheses targeting it, analyses mentioning it, and supporting scientific papers. The interactive graph below shows its immediate neighbors. All content is AI-synthesized from peer-reviewed literature.

3527Connections

5Hypotheses

6Analyses

50Outgoing

50Incoming

0Experiments

6Debates

Summary

NRF2 is a gene implicated in neurodegeneration research. Key relationships include: activates, regulates, inhibits. Associated with ALS, ALZHEIMER'S DISEASE, Aging. Connected to 1652 entities in the SciDEX knowledge graph.

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🧬 Gene Info

Gene Symbol	NRF2
Chromosome	2q31.2
Protein Family	Cap'n'Collar (CNC) bZIP transcription factor
Function	Basal state: Keap1 homodimer binds NRF2 via the DLG and ETGE motifs, serving as a substrate adapter for the Cul3-RING ubiquitin E3 ligase complex.
Molecular Weight	68 kDa
Amino Acids	605 aa
Pathways	Akt, Apoptosis, Autophagy, Cell Cycle, Chaperone
GeneCards	NRF2
Human Protein Atlas	NRF2
Phase II detoxification enzymes	NAD(P)H quinone dehydrogenase 1 (NQO1), heme oxygenase-1 (HO-1)
Antioxidant proteins	Glutathione S-transferases, UDP-glucuronosyltransferases
Cytoprotective proteins	Multidrug resistance-associated proteins
Associated Diseases	aging, Als, Alzheimer, Alzheimer's disease
Known Drugs/Compounds	4-octyl itaconate, 4OI, ALGERNON2, Alpha-Tocopherol, Artesunate, ATORVASTATIN
Interactions	ABCG2, ACETYLCHOLINE, ACHE, ACOD1, ACSL4, Actin
KG Connections	3473 knowledge graph edges
Databases	GeneCards UniProt NCBI Gene HPA STRING

Wiki Pages (11)

Knowledge base pages for this entity

Canonical Page

Pathway Diagram

graph TD
    NRF2["NRF2 Transcription Factor"] -->|"Inhibited by"| KEAP1["KEAP1 Repressor"]
    NRF2 -->|"Activates"| ARE["Antioxidant Response Element"]
    NRF2 -->|"Regulates"| OX["Oxidative Stress Response"]
    NRF2 -->|"Inhibits"| INFLAM["Inflammation"]
    NRF2 -->|"Regulates"| NFKB["NF-kappaB Pathway"]
    ARE -->|"Induces"| HMOX1["HMOX1"]
    ARE -->|"Induces"| NQO1["NQO1"]
    ARE -->|"Induces"| SOD["SOD"]
    ARE -->|"Induces"| GCLC["GCLC"]
    ARE -->|"Induces"| GCLM["GCLM"]
    ARE -->|"Induces"| SRXN1["SRXN1"]
    ARE -->|"Induces"| TXNRD1["TXNRD1"]
    GCLC -->|"Synthesizes"| GSH["Glutathione"]
    GCLM -->|"Synthesizes"| GSH
    NRF2 -->|"Implicated in"| ND["Neurodegeneration"]
    NRF2 -->|"Associated with"| CCRCC["Clear Cell RCC"]

    style NRF2 fill:#1b5e20,color:#e0e0e0
    style KEAP1 fill:#b71c1c,color:#e0e0e0
    style ARE fill:#0d47a1,color:#e0e0e0

Outgoing (2098)

Target	Relation	Type	Str
ferroptosis	regulates	process	1.00
Apoptosis	inhibits	pathway	1.00
OXIDATIVE STRESS	inhibits	gene	1.00
Aging	regulates	disease	1.00
OXIDATIVE STRESS	regulates	gene	1.00
AKT	activates	protein	1.00
AUTOPHAGY	activates	gene	1.00
Ferroptosis	regulates	pathway	1.00
Nf-Κb	inhibits	pathway	1.00
OXIDATIVE STRESS	activates	gene	1.00
OXIDATIVE STRESS	associated_with	gene	1.00
Pi3K/Akt	activates	pathway	1.00
Apoptosis	regulates	pathway	1.00
NEUROINFLAMMATION	activates	gene	1.00
Mapk	inhibits	pathway	1.00
Parkinson	therapeutic_target	disease	1.00
SOD1	associated_with	gene	1.00
Aging	therapeutic_target	disease	1.00
Tumor	inhibits	disease	1.00
Carcinoma	activates	disease	1.00
Cancer	therapeutic_target	disease	1.00
Inflammation	inhibits	disease	1.00
Cancer	inhibits	disease	1.00
Cardiac	activates	disease	1.00
MITOCHONDRIA	activates	gene	1.00
Ferroptosis	activates	pathway	1.00
Autophagy	activates	pathway	1.00
Oxidative Stress	activates	pathway	1.00
Als	regulates	disease	1.00
Als	activates	disease	1.00
Stroke	activates	disease	1.00
Neurodegeneration	activates	disease	1.00
Als	inhibits	disease	1.00
Nf-Κb	activates	pathway	1.00
Als	therapeutic_target	disease	1.00
Tumor	activates	disease	1.00
Oxidative Stress	regulates	pathway	1.00
Autophagy	regulates	pathway	1.00
Oxidative Stress	associated_with	pathway	1.00
PARKINSON'S DISEASE	associated_with	disease	1.00
Inflammation	activates	disease	1.00
Inflammation	regulates	disease	1.00
Parkinson	activates	disease	1.00
Oxidative Stress	inhibits	pathway	1.00
Nf-Κb	regulates	pathway	1.00
Alzheimer	activates	disease	1.00
STROKE	associated_with	disease	1.00
Neuroinflammation	activates	disease	1.00
Ferroptosis	inhibits	pathway	1.00
Cancer	regulates	disease	1.00

Incoming (1429)

Source	Relation	Type	Str
NF-KB	associated_with	protein	1.00
FERROPTOSIS	inhibits	gene	1.00
CANCER	activates	gene	1.00
P62	activates	protein	1.00
GPX4	inhibits	gene	1.00
KEAP1	activates	gene	1.00
NF-ΚB	activates	gene	1.00
INFLAMMATION	therapeutic_target	gene	1.00
CANCER	regulates	gene	1.00
OXIDATIVE STRESS	activates	gene	1.00
ALZHEIMER'S DISEASE	associated_with	disease	1.00
HO-1	inhibits	gene	1.00
PI3K	activates	gene	1.00
HO-1	activates	gene	1.00
CANCER	therapeutic_target	gene	1.00
KEAP1	inhibits	protein	1.00
OXIDATIVE STRESS	inhibits	gene	1.00
CYTOKINES	activates	gene	1.00
GPX4	activates	gene	1.00
KEAP1	regulates	gene	1.00
INFLAMMATION	inhibits	gene	1.00
GENES	regulates	gene	1.00
OXIDATIVE STRESS	associated_with	gene	1.00
SQSTM1	activates	gene	1.00
APOPTOSIS	associated_with	gene	1.00
NEURODEGENERATION	activates	gene	1.00
NEURODEGENERATION	associated_with	gene	1.00
INFLAMMATION	activates	phenotype	1.00
APOPTOSIS	regulates	gene	1.00
ROS	regulates	gene	1.00
NEURODEGENERATIVE DISEASES	activates	gene	1.00
ROS	activates	phenotype	1.00
GENES	activates	gene	1.00
OXIDATIVE STRESS	regulates	gene	1.00
TMEM16F	regulates	gene	1.00
NF-ΚB	regulates	gene	1.00
INFLAMMATION	regulates	gene	1.00
PARKINSON'S DISEASE	therapeutic_target	gene	1.00
BCL-2	activates	gene	1.00
CANCER	inhibits	gene	1.00
GENES	associated_with	gene	1.00
NEURODEGENERATIVE DISEASES	regulates	gene	1.00
PARKINSON	therapeutic_target	gene	1.00
ROS	inhibits	gene	1.00
HO-1	regulates	gene	1.00
KEAP1	associated_with	gene	1.00
OXIDATIVE STRESS	therapeutic_target	gene	1.00
PARKINSON'S DISEASE	activates	gene	1.00
FERROPTOSIS	activates	gene	0.98
MCL	activates	drug	0.95

Targeting Hypotheses (5)

Hypotheses where this entity is a therapeutic target

Hypothesis	Score	Disease	Analysis
Endothelial NRF2 Activation as a Master Switch for Post-CA B	0.689	neurodegeneration	View
NRF2-KEAP1 Pathway Activation to Coordinate Multi-Layer Anti	0.650	-	Ferroptosis in ALS and motor neuron dise
NRF2-Mediated Metabolic Reprogramming: HBOT as Direct NAMPT/	0.602	neurodegeneration	View
NRF2 Activation to Counteract Oxidative Stress from RGS6 Def	0.518	neurodegeneration	Does RGS6 upregulation or D2 autorecepto
Metabolic Accumulation (Ammonia/Manganese) Triggers IBA1 Dow	0.517	neuroinflammation	What causes IBA1 low/negative microglia

Mentioning Analyses (6)

Scientific analyses that reference this entity

Experiments (0)

Experimental studies targeting or related to this entity

Experiment	Type	Disease	Score	Feasibility	Model	Status	Est. Cost
No experiments found

Related Papers (0)

Scientific publications cited in analyses involving this entity

Title & PMID	Authors	Journal	Year	Citations
No papers found

Debates (6)

Multi-agent debates referencing this entity

NRF2

Understanding Entity Pages

Summary

Wiki Pages (11)

NRF2 Activator Therapy

NRF2 Oxidative Stress Pathway

NRF2 Activator Therapy for Neurodegeneration

NRF2 Activators for Parkinson's Disease

NRF2 Signaling Pathway in Neurodegeneration

NRF2 Gene

Pathway Diagram

Outgoing (2098)

Incoming (1429)

Targeting Hypotheses (5)

Mentioning Analyses (6)

Ferroptosis in ALS and motor neuron disease: GPX4, lipid peroxidation, and iron

What determines the GPX4/ACSL4 balance that switches microglia from protective t

Gene expression changes in aging mouse brain predicting neurodegenerative vulner

CRISPR-based therapeutic approaches for neurodegenerative diseases

SEA-AD Gene Expression Profiling — Allen Brain Cell Atlas

Neuroinflammation resolution mechanisms and pro-resolving mediators

Experiments (0)

Related Papers (0)

Debates (6)

Ferroptosis in ALS and motor neuron disease: GPX4, lipid peroxidation, and iron

While ACSL4-driven ferroptosis was strongly supported, the molecular triggers th

SPMs (resolvins, protectins, maresins) from omega-3s may promote inflammation re

What gene expression changes in the aging mouse brain predict neurodegenerative

Evaluate the potential of CRISPR/Cas9 and related gene editing technologies for

Cell-type specific expression patterns of neurodegeneration genes in SEA-AD

NRF2

Understanding Entity Pages

Summary

Wiki Pages (11)

NRF2 Activator Therapy

NRF2 Oxidative Stress Pathway

NRF2 Activator Therapy for Neurodegeneration

NRF2 Activators for Parkinson's Disease

NRF2 Signaling Pathway in Neurodegeneration

NRF2 Gene

NRF2 — Nuclear Factor Erythroid 2-Related Factor 2

Parkinson's Disease NRF2-Keap1 Pathway Therapy Companies

NRF2 Therapeutics: Investment Landscape Analysis

NRF2-KEAP1 Oxidative Stress Response Pathway

NRF2 Activators in Neurodegenerative Disease

Pathway Diagram

Outgoing (2098)

Incoming (1429)

Targeting Hypotheses (5)

Mentioning Analyses (6)

Ferroptosis in ALS and motor neuron disease: GPX4, lipid peroxidation, and iron

What determines the GPX4/ACSL4 balance that switches microglia from protective t

Gene expression changes in aging mouse brain predicting neurodegenerative vulner

CRISPR-based therapeutic approaches for neurodegenerative diseases

SEA-AD Gene Expression Profiling — Allen Brain Cell Atlas

Neuroinflammation resolution mechanisms and pro-resolving mediators

Experiments (0)

Related Papers (0)

Debates (6)

Ferroptosis in ALS and motor neuron disease: GPX4, lipid peroxidation, and iron

While ACSL4-driven ferroptosis was strongly supported, the molecular triggers th

SPMs (resolvins, protectins, maresins) from omega-3s may promote inflammation re

What gene expression changes in the aging mouse brain predict neurodegenerative

Evaluate the potential of CRISPR/Cas9 and related gene editing technologies for

Cell-type specific expression patterns of neurodegeneration genes in SEA-AD