Parkinson's discovery points to possible future treatment approaches

Parkinson's discovery points to possible future treatment approaches
Members of the Schlossmacher team include (from left to right) Jacqueline Tokarew, Bojan Shutinoski, Julianna Tomlinson, Angela Nguyen, Michael Schlossmacher, Daniel El-Kodsi and Nathalie Lengacher. Other key contributors to the discovery who are missing from the photo include Travis Fehr, Qiubo Jiang and Juan Li. Credit: The Ottawa Hospital

More than 20 years after the discovery of the parkin gene linked to young-onset Parkinson's disease, researchers at The Ottawa Hospital and the University of Ottawa may have finally figured out how this mysterious gene protects the brain.

Using human and mouse brain samples and engineered cells, they found that the protein works in two ways. First, it acts like a powerful antioxidant that disarms potentially harmful oxidants in the brain, including dopamine radicals. Second, as the ages and dopamine radicals continue to build up, parkin sequesters these harmful molecules in a special storage site within vulnerable nerve cells, so they can continue to function normally throughout our lifespan.

In people with mutations in both copies of the parkin gene, these protective effects are missing, and as a result Parkinson's develops before the age of 40 years. If confirmed, the results could point the way towards the development of new treatments.

"If we could deliver antioxidants or a healthy copy of the parkin gene into the brains of people with these mutations, this could help slow down or even halt early-onset Parkinson's," said co-corresponding author and scientific project manager Dr. Julianna Tomlinson.

"What we don't know yet is whether such an approach could also benefit individuals with late-onset Parkinson's that is not linked to the parkin gene," added co-corresponding author Dr. Michael Schlossmacher, neurologist and Director of Neuroscience at The Ottawa Hospital. "We are eager to investigate this."

More information: Jacqueline M. Tokarew et al, Age-associated insolubility of parkin in human midbrain is linked to redox balance and sequestration of reactive dopamine metabolites, Acta Neuropathologica (2021). DOI: 10.1007/s00401-021-02285-4
Citation: Parkinson's discovery points to possible future treatment approaches (2021, April 7) retrieved 3 December 2022 from
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