| Glucocerebrosidase (GCase) | |
|---|---|
| Symbol | GBA |
| Full Name | Glucocerebrosidase (GCase) |
| Type | Protein |
| UniProt | Search UniProt |
| Associated Diseases | AD, ALI, ALS, ALZHEIMER, ALZHEIMER'S DISEASE |
| KG Connections | 865 edges |
Overview
Glucocerebrosidase (GBA) is a lysosomal enzyme encoded by the GBA gene that catalyzes the hydrolysis of glucosylceramide to glucose and ceramide 1GBA structure (2006)Open reference. GBA is essential for glycolipid metabolism, and pathogenic mutations in GBA cause Gaucher disease 2Grabowski, GBA and Gaucher disease (2008)Open reference. Importantly, GBA mutations represent the most significant genetic risk factor for Parkinson’s disease (PD), with carriers having 5-10x increased risk 3GBA mutations in PD (2009)Open reference.
Beyond its enzymatic function, GBA plays crucial roles in autophagy, alpha-synuclein metabolism, and lysosomal homeostasis 4GBA and alpha-synuclein (2011)Open reference. The bidirectional relationship between GBA and alpha-synuclein represents a key pathogenic mechanism in PD and related synucleinopathies 5GBA-alpha-synuclein relationship (2014)Open reference.
Structure
GBA is a 497-amino acid enzyme:
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Signal peptide: Directs secretion and lysosomal targeting 6GBA signal peptide (1987)Open reference
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Catalytic domain: Beta-glucosidase active site 7GBA catalytic mechanism (2003)Open reference
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Three N-linked glycosylation sites: Required for proper folding and trafficking 8Bergmann & Grabowski, GBA glycosylation (1989)Open reference
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Carbohydrate recognition domain: Binds glucosylceramide substrate 9GBA substrate binding (1995)Open reference
Molecular Functions
Lysosomal Enzyme Activity
GBA catalyzes the hydrolysis of glucosylceramide (GlcCer) in the lysosome 10Futerman & Zimran, GBA biochemistry (2006)Open reference:
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Substrate: Glucosylceramide (GlcCer) → Glucose + Ceramide 2Grabowski, GBA and Gaucher disease (2008)Open reference0
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Optimal pH: pH 4.5-5.0 (lysosomal environment) 2Grabowski, GBA and Gaucher disease (2008)Open reference1
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Cofactors: Requires water and optimal pH 2Grabowski, GBA and Gaucher disease (2008)Open reference2
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Deficiency: Causes GlcCer accumulation in Gaucher disease 2Grabowski, GBA and Gaucher disease (2008)Open reference3
Autophagy Regulation
GBA influences autophagy through multiple mechanisms 2Grabowski, GBA and Gaucher disease (2008)Open reference4:
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Lysosomal function: Essential for autophagosome-lysosome fusion 2Grabowski, GBA and Gaucher disease (2008)Open reference5
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Alpha-synuclein clearance: GBA deficiency impairs lysosomal degradation of alpha-synuclein 2Grabowski, GBA and Gaucher disease (2008)Open reference6
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Parkin recruitment: GBA influences PINK1/Parkin-mediated mitophagy 2Grabowski, GBA and Gaucher disease (2008)Open reference7
Alpha-Synuclein Metabolism
The GBA-alpha-synuclein relationship is bidirectional and pathogenic 2Grabowski, GBA and Gaucher disease (2008)Open reference8:
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GCase activity: Reduced GBA activity leads to alpha-synuclein accumulation 2Grabowski, GBA and Gaucher disease (2008)Open reference9
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Alpha-synuclein inhibition: Aggregated alpha-synuclein inhibits GBA activity 3GBA mutations in PD (2009)Open reference0
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Vicious cycle: Creates self-amplifying pathogenic loop 3GBA mutations in PD (2009)Open reference1
Parkinson’s Disease
GBA in Parkinson’s Pathogenesis
flowchart TD
A["GBA Mutations"] --> B["Reduced GCase Activity"]
B --> C["Lysosomal Dysfunction"]
B --> D["Autophagy Impairment"]
C --> E["alpha-Synuclein Accumulation"]
D --> E
E --> F["alpha-Synuclein Aggregation"]
F --> G["Lewy Body Formation"]
G --> H["Neuronal Death"]
F -->|"Feedback inhibition"| I["Further inhibits GBA activity"]
I --> B
J["Mitochondrial Dysfunction"] --> H
K["Neuroinflammation"] --> H
style A fill:#0a1929,stroke:#1565c0
style H fill:#3b1114,stroke:#c62828Genetic Risk
GBA mutations are the most important genetic risk factor for PD 3GBA mutations in PD (2009)Open reference2:
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Carrier frequency: ~5-10% of PD patients carry GBA mutations 3GBA mutations in PD (2009)Open reference3
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Risk increase: 5-10x increased risk compared to non-carriers 3GBA mutations in PD (2009)Open reference4
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Age of onset: Earlier onset (mean ~55 years) than sporadic PD 3GBA mutations in PD (2009)Open reference5
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Clinical features: More cognitive impairment and hallucinations 3GBA mutations in PD (2009)Open reference6
Pathogenic Mechanisms
Multiple mechanisms connect GBA to PD pathogenesis 3GBA mutations in PD (2009)Open reference7:
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Lysosomal dysfunction: Impaired autophagy leads to protein aggregation 3GBA mutations in PD (2009)Open reference8
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Mitochondrial dysfunction: GBA mutations affect mitochondrial health 3GBA mutations in PD (2009)Open reference9
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Neuroinflammation: Altered microglial function 4GBA and alpha-synuclein (2011)Open reference0
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Endoplasmic reticulum stress: Mutant GBA causes ER stress 4GBA and alpha-synuclein (2011)Open reference1
Clinical Phenotype
GBA-PD has distinct clinical features 4GBA and alpha-synuclein (2011)Open reference2:
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Motor symptoms: Typical parkinsonism with good levodopa response 4GBA and alpha-synuclein (2011)Open reference3
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Cognitive decline: Higher risk of dementia 4GBA and alpha-synuclein (2011)Open reference4
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Autonomic dysfunction: More severe autonomic impairment 4GBA and alpha-synuclein (2011)Open reference5
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Psychiatric features: Higher prevalence of depression and psychosis 4GBA and alpha-synuclein (2011)Open reference6
Gaucher Disease
Overview
Gaucher disease is caused by GBA deficiency 4GBA and alpha-synuclein (2011)Open reference7:
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Type 1: Non-neuronopathic (most common) 4GBA and alpha-synuclein (2011)Open reference8
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Type 2: Acute neuronopathic 4GBA and alpha-synuclein (2011)Open reference9
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Type 3: Chronic neuronopathic 5GBA-alpha-synuclein relationship (2014)Open reference0
Treatment
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Enzyme replacement therapy (ERT): Recombinant GBA (imiglucerase, velaglucerase) 5GBA-alpha-synuclein relationship (2014)Open reference1
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Substrate reduction therapy (SRT): Miglustat, eliglustat 5GBA-alpha-synuclein relationship (2014)Open reference2
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Chaperone therapy: Ambroxol (under investigation) 5GBA-alpha-synuclein relationship (2014)Open reference3
Therapeutic Implications
PD Therapeutic Strategies
Multiple approaches target the GBA-alpha-synuclein axis 5GBA-alpha-synuclein relationship (2014)Open reference4:
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GBA enhancers: Small molecules that increase GBA activity 5GBA-alpha-synuclein relationship (2014)Open reference5
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Chaperones: Pharmacological chaperones to stabilize mutant GBA 5GBA-alpha-synuclein relationship (2014)Open reference6
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Autophagy enhancers: Promote clearance of alpha-synuclein 5GBA-alpha-synuclein relationship (2014)Open reference7
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Combination therapy: Target both GBA and alpha-synuclein 5GBA-alpha-synuclein relationship (2014)Open reference8
Ambroxol
Ambroxol is being investigated for PD treatment 5GBA-alpha-synuclein relationship (2014)Open reference9:
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Mechanism: Acts as a pharmacological chaperone and GBA enhancer 6GBA signal peptide (1987)Open reference0
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Clinical trials: Currently in phase 2 trials for PD 6GBA signal peptide (1987)Open reference1
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Alpha-synuclein: May reduce alpha-synuclein aggregation 6GBA signal peptide (1987)Open reference2
Cross-links
See Also
Brain Atlas Resources
External Links
References
- GBA structure (2006)
- Grabowski, GBA and Gaucher disease (2008)
- GBA mutations in PD (2009)
- GBA and alpha-synuclein (2011)
- GBA-alpha-synuclein relationship (2014)
- GBA signal peptide (1987)
- GBA catalytic mechanism (2003)
- Bergmann & Grabowski, GBA glycosylation (1989)
- GBA substrate binding (1995)
- Futerman & Zimran, GBA biochemistry (2006)
- GBA enzymatic activity (1969)
- GBA pH optimum (1986)
- GBA catalysis (1990)
- Beutler & Grabowski, Gaucher disease (2001)
- GBA and autophagy (2014)
- GBA lysosomal function (2008)
- GBA deficiency alpha-synuclein (2016)
- GBA mitophagy (2020)
- GBA alpha-synuclein cycle (2019)
- GBA activity alpha-synuclein (2013)
- Alpha-synuclein inhibits GBA (2021)
- GBA-alpha-synuclein loop (2018)
- GBA epidemiology (2012)
- GBA carrier frequency (2015)
- GBA PD risk (2014)
- GBA PD age of onset (2011)
- GBA PD cognitive (2013)
- Bae & Krainc, GBA pathogenic mechanisms (2015)
- GBA lysosomal dysfunction (2016)
- GBA mitochondria (2019)
- GBA microglia (2022)
- GBA ER stress (2016)
- GBA-PD phenotype (2014)
- GBA-PD motor symptoms (2015)
- GBA cognitive decline (2014)
- GBA autonomic dysfunction (2016)
- GBA psychiatric features (2015)
- Gaucher disease (2017)
- Type 1 Gaucher (2000)
- Type 2 Gaucher (1997)
- Type 3 Gaucher (2019)
- GBA ERT (2002)
- Gomez & Ballard, GBA SRT (2015)
- Ambinder & Roncarolo, Ambroxol chaperone (2021)
- GBA therapeutic strategies (2017)
- GBA activators (2018)
- GBA chaperones (2019)
- Autophagy enhancers alpha-synuclein (2016)
- Kalia & Lang, GBA combination therapy (2015)
- Ambroxol PD trial (2020)
- Ambroxol mechanism (2015)
- Ambroxol clinical trial (2021)
- Ambroxol alpha-synuclein (2022)
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