Distinct Mechanisms Determine α‑Synuclein Fibril Morphology during Growth and Maturation

Amyloid polymorphs have become one of the focal points of molecular studies of neurodegenerative diseases like Parkinson’s disease. Due to their distinct biochemical properties and prion-like characteristics, insights into the molecular origin and stability of amyloid polymorphs over time are crucia...

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Published in	ACS chemical neuroscience Vol. 8; no. 3; pp. 538 - 547
Main Authors	Sidhu, Arshdeep, Segers-Nolten, Ine, Raussens, Vincent, Claessens, Mireille M. A. E, Subramaniam, Vinod
Format	Journal Article
Language	English
Published	United States American Chemical Society 15.03.2017
Subjects	alpha-Synuclein - chemistry alpha-Synuclein - genetics alpha-Synuclein - metabolism Circular Dichroism Humans Microscopy, Atomic Force Multiprotein Complexes - genetics Multiprotein Complexes - metabolism Mutation - genetics Protein Aggregation, Pathological - metabolism Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization Thiazoles - metabolism Time Factors α-Synuclein polymorphism amyloid growth mechanisms atomic force microscopy
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Abstract	Amyloid polymorphs have become one of the focal points of molecular studies of neurodegenerative diseases like Parkinson’s disease. Due to their distinct biochemical properties and prion-like characteristics, insights into the molecular origin and stability of amyloid polymorphs over time are crucial for understanding the potential role of amyloid polymorphism in these diseases. Here, we systematically study the fibrillization of recombinantly produced human α-synuclein (αSyn) over an extended period of time to unravel the origin and temporal evolution of polymorphism. We follow morphological changes in the same fibril sample with atomic force microscopy over a period of 1 year. We show that wild-type (wt) αSyn fibrils undergo a slow maturation over time after reaching the plateau phase of aggregation (as detected in a Thioflavin-T fluorescence assay). This maturation, visualized by changes in the fibril periodicity over time, is absent in the disease mutant fibrils. The β-sheet content of the plateau phase and matured fibrils, obtained using Fourier transform infrared spectroscopy, is however similar for the αSyn protein sequences, suggesting that the morphological changes in wt αSyn fibrils are tertiary or quaternary in origin. Furthermore, results from a reversibility assay show that the plateau phase fibrils do not disassemble over time. Together, the observed changes in the periodicity distributions and stability of the fibrillar core over time point toward two distinct mechanisms that determine the morphology of wt αSyn fibrils: competitive growth between different polymorphs during the fibrillization phase followed by a process wherein fibrils undergo slow maturation or annealing.
AbstractList	Amyloid polymorphs have become one of the focal points of molecular studies of neurodegenerative diseases like Parkinson’s disease. Due to their distinct biochemical properties and prion-like characteristics, insights into the molecular origin and stability of amyloid polymorphs over time are crucial for understanding the potential role of amyloid polymorphism in these diseases. Here, we systematically study the fibrillization of recombinantly produced human α-synuclein (αSyn) over an extended period of time to unravel the origin and temporal evolution of polymorphism. We follow morphological changes in the same fibril sample with atomic force microscopy over a period of 1 year. We show that wild-type (wt) αSyn fibrils undergo a slow maturation over time after reaching the plateau phase of aggregation (as detected in a Thioflavin-T fluorescence assay). This maturation, visualized by changes in the fibril periodicity over time, is absent in the disease mutant fibrils. The β-sheet content of the plateau phase and matured fibrils, obtained using Fourier transform infrared spectroscopy, is however similar for the αSyn protein sequences, suggesting that the morphological changes in wt αSyn fibrils are tertiary or quaternary in origin. Furthermore, results from a reversibility assay show that the plateau phase fibrils do not disassemble over time. Together, the observed changes in the periodicity distributions and stability of the fibrillar core over time point toward two distinct mechanisms that determine the morphology of wt αSyn fibrils: competitive growth between different polymorphs during the fibrillization phase followed by a process wherein fibrils undergo slow maturation or annealing.
Author	Subramaniam, Vinod Sidhu, Arshdeep Segers-Nolten, Ine Claessens, Mireille M. A. E Raussens, Vincent
AuthorAffiliation	Nanobiophysics, MESA+ Institute for Nanotechnology Structural Biology and Bioinformatics Centre, Structure and Function of Biological Membranes, Faculty of Science Université Libre de Bruxelles Vrije Universiteit Amsterdam MIRA Institute for Biomedical Technology and Technical Medicine
AuthorAffiliation_xml	– name: Nanobiophysics, MESA+ Institute for Nanotechnology – name: Université Libre de Bruxelles – name: MIRA Institute for Biomedical Technology and Technical Medicine – name: Structural Biology and Bioinformatics Centre, Structure and Function of Biological Membranes, Faculty of Science – name: Vrije Universiteit Amsterdam
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Snippet	Amyloid polymorphs have become one of the focal points of molecular studies of neurodegenerative diseases like Parkinson’s disease. Due to their distinct... Amyloid polymorphs have become one of the focal points of molecular studies of neurodegenerative diseases like Parkinson's disease. Due to their distinct...
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SubjectTerms	alpha-Synuclein - chemistry alpha-Synuclein - genetics alpha-Synuclein - metabolism Circular Dichroism Humans Microscopy, Atomic Force Multiprotein Complexes - genetics Multiprotein Complexes - metabolism Mutation - genetics Protein Aggregation, Pathological - metabolism Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization Thiazoles - metabolism Time Factors
Title	Distinct Mechanisms Determine α‑Synuclein Fibril Morphology during Growth and Maturation
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