Accumulation Of Excess Protein Linked To Development Of Parkinson's Disease
The findings, published in the February 6, 2013 issue of the Journal of Neuroscience, have major implications for more fully understanding the causes and mechanisms of Parkinson's disease (PD), a neurodegenerative movement disorder that affects an estimated one million Americans.
"This is an important new insight. I don't think anybody realized just how big a role alpha-synuclein played in managing the retrieval of worn-out proteins from synapses and the role of alterations in this process in development of PD," said principal investigator Mark H. Ellisman, PhD, professor of neurosciences and bioengineering and director of the National Center for Microscopy and Imaging Research (NCMIR), based at UC San Diego.
Parkinson's disease is characterized by the gradual destruction of select brain cells that produce dopamine, a neurotransmitter involved in regulating movement and emotion. Symptoms include increasing loss of muscle and movement control. While most cases are sporadic - that is, their causes are unknown - there are also inherited forms of PD linked to specific gene mutations and modifications.
The UC San Diego researchers, with colleagues at the University of Illinois, Urbana, focused upon one of those gene products: alpha-synuclein. Using a variety of leading-edge imaging technologies, including a new fluorescent tagging technique developed for electron microscopy by UC San Diego Nobel laureate Roger Tsien's lab and colleagues at NCMIR, the scientists created three-dimensional maps of alpha-synuclein distribution both in cultured neurons and in the neurons of mice engineered to over-express the human protein.
They found that excess levels of alpha-synuclein accumulated in the presynaptic terminal - part of the junction where axons and dendrites of brain cells meet to exchange chemical signals.
"The over-expression of alpha-synuclein caused hypertrophy in these terminals," said Daniela Boassa, PhD, a research scientist at NCMIR and the study's first author. "The terminals were enlarged, filled with structures we normally don't see."
Boassa said that as alpha-synuclein accumulates in the terminals, it appears to hinder normal degradation and recycling processes in neurons. This would progressively impair the release of neurotransmitters. In time, the neurons might simply stop functioning and die.
"Other studies have noted that PD is characterized by progressive loss of vesicle traffic, and neurotransmitter release," Boassa said. "Our study provides a structural and mechanistic explanation for why that happens."
Boassa said the findings shed greater light upon how PD is caused, at least in some heritable forms. Researchers plan to now probe more deeply into how the disease is propagated and how dysfunctional alpha-synuclein proteins spread from one neuron to another, hastening the advance of the disorder.
"The better we understand the mechanisms of PD, the easier it will be to develop clinical interventions," she said.
Co-authors are Monica L. Berlanga, Masako Terada, Junru Hu, Eric A. Bushong and Minju Hwang, National Center for Microscopy and Imaging Research and Center for Research on Biological Systems; Mary Ann Yang and Julia M. George, Department of Cell and Developmental Biology, University of Illinois, Urbana; and Eliezer Masliah, Department of Neurosciences, UCSD.
Funding for this research came, in part, from the NIH National Center for Research Resources (5P41RR004050-24), the National Institute of General Medical Sciences (8 P41 GM103412-24), National Institutes of Health grants R01 GM086197-05, AG184440 and AG022074, as well as support from the Branfman Family Foundation and the Institute for Systems Biology, as part of the activities of a consortium of researchers linked to the Luxembourg Center for Systems Biomedicine's research program on neurodegenerative disease.
University of California - San Diego
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