Abstract

Previous work from our group showed that certain engineered missense mutations to the α-synuclein (αS) KTKEGV repeat motifs abrogate the protein’s ability to form native multimers. The resultant excess monomers accumulate in lipid-membrane-rich inclusions associated with neurotoxicity exceeding that of natural familial Parkinson’s disease mutants such as E46K. We presented an initial characterization of the lipid-rich inclusions and found similarities to the αS- and vesicle-rich inclusions that form in baker’s yeast when αS is expressed. We also discussed, with some caution, a possible role of membrane-rich inclusions as precursors to filamentous Lewy bodies, the widely accepted hallmark pathology of Parkinson’s disease and other synucleinopathies. In the meantime, advances in the microscopic characterization of Lewy bodies have highlighted the presence of crowded organelles and lipid membranes in addition to αS accumulation. This prompted us to revisit the αS inclusions caused by our repeat motif variants in neuroblastoma cells. In addition to our previous characterization, we found that these inclusions can often be seen by brightfield microscopy, overlap with endogenous vesicle markers in immunofluorescence experiments, stain positive for lipid dyes, and can be found to be closely associated with mitochondria. We also observed abnormal tubulation of membranes, which was subtle in inducible lines and pronounced in cells that transiently expressed high amounts of the highly disruptive KTKEGV motif mutant “KLKEGV”. Membrane tubulation had been reported before as an αS activity in reductionist systems. Our in-cellulo demonstration now suggests that this mechanism could possibly be a relevant aspect of aberrant αS behavior in cells.

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