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PUBLIC RELEASE DATE:
17-Dec-2013

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Contact: Cathy Yarbrough
cyarbrough@ascb.org
858-243-1814

John Fleischman
jfleischman@ascb.org

American Society for Cell Biology

Overworked cellular machines may explain Gaucher disease link to Parkinson's disease

Dopamine-producing cells die as result of cascade triggered by busy enzyme degradation cellular machines

Scientists have identified the biological pathway that explains Gaucher disease (GD) patients' higher risk for developing Parkinson's disease (PD), according to research to be presented Tuesday, Dec. 17, at the American Society for Cell Biology annual meeting in New Orleans.

GD is a hereditary disease in which the genes that encode the enzyme glucocerebrosidase are mutated, resulting in a life-threatening build-up of lipids, fatty substances, in cells. Previous studies have found that individuals born with two recessive GD gene mutations have a higher risk of developing PD than those with normal genes for the glucocerebrosidase enzyme. Even individuals who carry the GD mutation but who have no overt symptoms of the lipid storage disease have a higher risk for developing PD.

Mia Horowitz, Ph.D., and Galit Maor, Ph.D., of Tel Aviv University in Israel have built an accurate laboratory model in the fruit fly, Drosophila melanogaster, that traces the link between GD and PD through accumulations of defective copies of the enzyme. Their fruit fly with the mutated genes is the first animal model of GD with PD-like symptoms, according to the researchers.

Since the normal job of glucocerebrosidase is to chop up certain lipids, it might be expected that GD carriers would accumulate these lipids, but this is not the case, the researchers said. Instead, the problem seems to be caused by accumulation of the defective enzyme itself, leading to the activation of cellular machines that dispose of defective proteins. When these enzyme degradation machines get too busy, they can trigger a cascade that leads to cell death.

The death of specific cells in the brain, named dopaminergic cells, leads to development of PD. Dr. Horowitz hypothesized that this cell death cascade is the link to PD. Using the easily re-engineered fruit fly, Drs. Horowitz and Maor created a laboratory model of carriers of GD mutations to test their idea.

They mutated the GD enzyme, glucocerebrosidase, in a subset of neurons in the fruit flies. With defective glucocerebrosidases, the flies began losing their dopamine-generating neurons, a classic symptom of PD. Also, the fruitflies' reduced climbing ability is the fly equivalent of Parkinsonian hypokinesis, the characteristic movement "freeze-up" of patients with PD.

The fly model, said Dr. Horowitz, lends support to the idea that GD and PD are related through the pathways triggered by the accumulation of defective proteins, a cascade that leads to dopaminergic cell death.

###

CONTACT:

Mia Horowitz, Ph.D.
Tel Aviv University
horwitzm@post.tau.ac.il
+972-3-6409285

ASCB PRESS CONTACTS:

John Fleischman
jfleischman@ascb.org
513-706-0212

Cathy Yarbrough
Cyarbrough@ascb.org
858-243-1814

The author will present, "The connection between UPR, Gaucher Disease, and Parkinson's disease," on Tuesday, Dec. 17, during the 12 noon to 1:30 p.m. poster session, "Aging and Aging Associated Degeneration."

Co-authors: G. Maor and D. Segal, Tel Aviv University; H. Steller, Rockefeller University, New York, NY; and M. Horowitz, Tel Aviv University.



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