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Physicochemical characterization of the G51D mutation of α-synuclein that is responsible for its severe cytotoxicity

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Fibril formation and aggregation of α-synuclein are important for the pathogenesis of neurodegenerative disorders including Parkinson's disease. In familial Parkinson's disease, the G51D mutation of α-synuclein causes severe symptoms and… Click to show full abstract

Fibril formation and aggregation of α-synuclein are important for the pathogenesis of neurodegenerative disorders including Parkinson's disease. In familial Parkinson's disease, the G51D mutation of α-synuclein causes severe symptoms and rapid progression. α-Synuclein, an intrinsically disordered protein, was shown to adopt an α-helical tetrameric state that resists fibrillation and aggregation. Here, we isolated the stable dimeric state of recombinant wild-type (WT) α-synuclein and G51D α-synuclein protein. Using circular dichroism spectroscopy, we determined that the α-synuclein dimer and monomer structures were unfolded. The WT α-synuclein dimer was more resistant to fibril formation than the monomer. However, the fibril formation rate of the G51D α-synuclein dimer was similar to that of the G51D α-synuclein monomer. The fibril morphology and properties of the G51D α-synuclein monomer were different from those of the WT α-synuclein monomer and dimer and G51D α-synuclein dimer. Additionally, G51D α-synuclein monomer fibrils were more cytotoxic than other fibrils. Our findings indicate that the structural differences between G51D α-synuclein monomer fibrils and other fibrils are critically responsible for its severe neurotoxicity in familial Parkinson's disease.

Keywords: g51d synuclein; g51d mutation; synuclein monomer; synuclein

Journal Title: Neuroscience Letters
Year Published: 2021

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