The Foundation supports research across basic, translational and clinical science to speed breakthroughs that can lead to the creation of new treatments and a better quality of life for people with Parkinson's disease.
Search or browse funded studies
Previously funded studies appear chronologically, with the most recent appearing first.
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Defining Cognitive Phenotypes of Parkinson’s Disease, 2011The Relationship Between Cognitive Phenotypes of PD with Visual Hallucinations and 5HT2A Receptors in the Inferotemporal Cortex
Objective/Rationale:
The project aims to understand the mechanisms underlying cognitive deficits that are associated with visual hallucinations (VH) in Parkinson’s disease (PD). We have previously... -
Rapid Response Innovation Awards, 2011Development of Dopaminergic Cell Line Models of Alpha-synuclein Expression for High-throughput Drug Screenings and Monitoring of Alpha-synuclein Expression
Objective/Rationale:
Parkinson’s disease (PD) affects millions of people in the United States, and it is caused by the death of neurons that produce dopamine. A large body of experimental evidence... -
MJFF Research Grant, 2011Development of Hsf1 Effectors as Parkinson's Disease Therapeutics
Objective/Rationale:
This project focuses on the development of small molecule therapeutics to treat Parkinson’s disease by advancing lead compounds that elevate the abundance of protein chaperones.... -
Rapid Response Innovation Awards, 2011Transport and Transfer of Misfolded Alpha-synuclein in Neurons
Objective/Rationale:
Alpha-synuclein is a protein found in human neurons that can adopt a toxic form whose spread may be responsible for Parkinson’s disease. We showed that toxic alpha-synuclein is... -
MJFF Research Grant, 2011Investigating Signaling Pathway Dysfunction Linked to LRRK2
Promising Outcomes of Original Grant:
Our project investigated whether LRRK2 had an impact on a particular signaling system in the cell called the mTOR pathway. This pathway helps to control how cells... -
Therapeutics Development Initiative, 2011Delivery of GDNF to the Brain by Novel Nanovesicles for the Treatment of PD
Objective/Rationale:
GDNF has the potential to halt the progression of, or reverse, PD. However, GDNF, a large protein, does not get into the brain when given orally or intravenously. Our novel nano...

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Our funding programs support basic, translational and clinical research from academia and industry.