Accumulation and clearance of alpha-synuclein aggregates demonstrated by time-lapse imaging

2008 | journal article. A publication with affiliation to the University of Göttingen.

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​Accumulation and clearance of alpha-synuclein aggregates demonstrated by time-lapse imaging​
Opazo, F.; Krenz, A.; Heermann, S.; Schulz, J. B. & Falkenburger, B. H.​ (2008) 
Journal of Neurochemistry106(2) pp. 529​-540​.​ DOI: https://doi.org/10.1111/j.1471-4159.2008.05407.x 

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Authors
Opazo, Felipe; Krenz, Antje; Heermann, Stephan; Schulz, Joerg B.; Falkenburger, Bjoern H.
Abstract
Aggregates of alpha-synuclein are the pathological hallmark of sporadic Parkinson's disease (PD), and mutations in the alpha-synuclein gene underlie familial forms of the disease. To characterize the formation of alpha-synuclein aggregates in living cells, we developed a new strategy to visualize alpha-synuclein by fluorescence microscopy: alpha-synuclein was tagged with a six amino acid PDZ binding motif and co-expressed with the corresponding PDZ domain fused to enhanced green fluorescent protein (EGFP). In contrast to the traditional approach of alpha-synuclein-EGFP fusion proteins, this technique provided several-fold higher sensitivity; this allowed us to compare alpha-synuclein variants and perform time-lapse imaging. A C-terminally truncated alpha-synuclein variant showed the highest prevalence of aggregates and toxicity, consistent with stabilization of the alpha-synuclein monomer by its C-terminus. Time-lapse imaging illustrated how cells form and accumulate aggregates of alpha-synuclein. A substantial number of cells also reduced their aggregate load, primarily through formation of an aggresome, which could itself be cleared from the cell. The molecular chaperone Hsp70 not only prevented the formation of aggregates, but also increased their reduction and clearance, underlining the therapeutic potential of similar strategies. In contrast to earlier assumptions build-up, reduction and clearance of alpha-synuclein aggregation thus appear a highly dynamic process.
Issue Date
2008
Status
published
Publisher
Blackwell Publishing
Journal
Journal of Neurochemistry 
ISSN
0022-3042

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