Covalent Modification and Regulation of the Nuclear Receptor Nurr1 by a Dopamine Metabolite

Autor: Robert J. Fletterick, Paulomi Bhattacharya, Svetlana A. Kholodar, Harrison Liu, Pamela M. England, James M. Holton, Matthew P. Jacobson, Francesca Oltrabella, Yan Wang, Su Guo, Boxue Tian, John M. Bruning
Rok vydání: 2019
Předmět:
nuclear receptor related 1 protein
Indoles
Parkinson's disease
Transcription
Genetic

Dopamine
Metabolite
Clinical Biochemistry
Neurodegenerative
Crystallography
X-Ray

01 natural sciences
Biochemistry
chemistry.chemical_compound
0302 clinical medicine
Transcription (biology)
Nuclear Receptor Subfamily 4
Group A
Member 2

Drug Discovery
2.1 Biological and endogenous factors
nuclear receptor
Aetiology
Zebrafish
Group A
0303 health sciences
Tumor
Crystallography
Dopaminergic
Recombinant Proteins
3. Good health
Cell biology
6-dihydroxyindolequinone
redox sensor
Nurr1
6-dihydroxyindole
DHICA
Larva
Neurological
DHI
Thermodynamics
Molecular Medicine
Transcription
dopamine metabolite
dopamine oxidation
medicine.drug
Nuclear Receptor Subfamily 4
Member 2
ligand-binding domain
1.1 Normal biological development and functioning
Nuclear receptor related-1 protein
Molecular Dynamics Simulation
Biology
Article
Cell Line
03 medical and health sciences
Genetic
Protein Domains
Underpinning research
Nr4A2
Cell Line
Tumor

Genetics
medicine
Animals
Humans
6-indolequinone
Gene
Molecular Biology
030304 developmental biology
Pharmacology
Binding Sites
ligand-binding pocket
010405 organic chemistry
cysteine adduct
Neurosciences
dopamine homeostasis
medicine.disease
biology.organism_classification
Brain Disorders
0104 chemical sciences
Oxidative Stress
Good Health and Well Being
chemistry
Nuclear receptor
IQ
X-Ray
biology.protein
030217 neurology & neurosurgery
Homeostasis
Zdroj: Cell Chem Biol
Cell chemical biology, vol 26, iss 5
ISSN: 2451-9456
DOI: 10.1016/j.chembiol.2019.02.002
Popis: SUMMARYNurr1, a nuclear receptor essential for the development, maintenance, and survival of midbrain dopaminergic neurons, is a potential therapeutic target for Parkinson’s disease, a neurological disorder characterized by the degeneration of these same neurons. Efforts to identify Nurr1 agonists have been hampered by the recognition that it lacks several classic regulatory elements of nuclear receptor function, including the canonical ligand-binding pocket. Here we report that the dopamine metabolite 5,6-dihydroxyindole (DHI) binds directly to and modulates the activity of Nurr1. Using biophysical assays and x-ray crystallography we show that DHI binds to the ligand binding domain within a non-canonical pocket, forming a covalent adduct with Cys566. In cultured cells and zebrafish, DHI stimulates Nurr1 activity, including the transcription of target genes underlying dopamine homeostasis. These findings suggest avenues for developing synthetic Nurr1 ligands to ameliorate the symptoms and progression of Parkinson’s disease.
Databáze: OpenAIRE