Genetic screening and metabolomics identify glial adenosine metabolism as a therapeutic target in Parkinson's disease.
Maggie J SoddersJulian Avila PachecoErnest C OkorieMing ShenNamrata KumariArchana MarathiMehek LakhaniKevin BullockKerry A PierceCourtney DennisSarah JeanfavreSouvarish SarkarClemens R ScherzerAndrew T ChanAbby L OlsenPublished in: bioRxiv : the preprint server for biology (2024)
Parkinson's disease (PD) is the second most common neurodegenerative disorder and lacks disease-modifying therapies. We developed a Drosophila model for identifying novel glial-based therapeutic targets for PD. Human alpha-synuclein is expressed in neurons and individual genes are independently knocked down in glia. We performed a forward genetic screen, knocking down the entire Drosophila kinome in glia in alpha-synuclein expressing flies. Among the top hits were five genes (Ak1, Ak6, Adk1, Adk2, and awd) involved in adenosine metabolism. Knockdown of each gene improved locomotor dysfunction, rescued neurodegeneration, and increased brain adenosine levels. We determined that the mechanism of neuroprotection involves adenosine itself, as opposed to a downstream metabolite. We dove deeper into the mechanism for one gene, Ak1, finding rescue of dopaminergic neuron loss, alpha-synuclein aggregation, and bioenergetic dysfunction after glial Ak1 knockdown. We performed metabolomics in Drosophila and in human PD patients, allowing us to comprehensively characterize changes in purine metabolism and identify potential biomarkers of dysfunctional adenosine metabolism in people. These experiments support glial adenosine as a novel therapeutic target in PD.
Keyphrases
- genome wide
- protein kinase
- endothelial cells
- copy number
- neuropathic pain
- genome wide identification
- end stage renal disease
- dna methylation
- ejection fraction
- oxidative stress
- spinal cord injury
- newly diagnosed
- chronic kidney disease
- induced pluripotent stem cells
- high throughput
- peritoneal dialysis
- gene expression
- cerebral ischemia
- genome wide analysis
- patient reported outcomes