Rebecca J. Thrush scite author profile

Parkinson’s disease is associated with the aberrant aggregation of α-synuclein. Although the causes of this process are still unclear, post-translational modifications of α-synuclein are likely to play a modulatory role. Since α-synuclein is constitutively N-terminally acetylated, we investigated how this post-translational modification alters the aggregation behavior of this protein. By applying a three-pronged aggregation kinetics approach, we observed that N-terminal acetylation results in a reduced rate of lipid-induced aggregation and slows down both elongation and fibril-catalyzed aggregate proliferation. An analysis of the amyloid fibrils produced by the aggregation process revealed different morphologies for the acetylated and non-acetylated forms in both lipid-induced aggregation and seed-induced aggregation assays. In addition, we found that fibrils formed by acetylated α-synuclein exhibit a lower β-sheet content. These findings indicate that N-terminal acetylation of α-synuclein alters its lipid-dependent aggregation behavior, reduces its rate of in vitro aggregation, and affects the structural properties of its fibrillar aggregates.

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Effects of N-terminal Acetylation on the Aggregation of Disease-related α-synuclein Variants

Bell

Castellana-Cruz²,

Nene³

et al. 2023

Journal of Molecular Biology

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The Diagnostic Potential of Amyloidogenic Proteins

Jin

Vadukul

Gialama

et al. 2021

IJMS

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Neurodegenerative disorders are a highly prevalent class of diseases, whose pathological mechanisms start before the appearance of any clear symptoms. This fact has prompted scientists to search for biomarkers that could aid early treatment. These currently incurable pathologies share the presence of aberrant aggregates called amyloids in the nervous system, which are composed of specific proteins. In this review, we discuss how these proteins, their conformations and modifications could be exploited as biomarkers for diagnostic purposes. We focus on proteins that are associated with the most prevalent neurodegenerative disorders, including Alzheimer’s and Parkinson’s diseases, amyotrophic lateral sclerosis, and frontotemporal dementia. We also describe current challenges in detection, the most recent techniques with diagnostic potentials and possible future developments in diagnosis.

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A Facile Method to Produce N-Terminally Truncated α-Synuclein

2022

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α-Synuclein is a key protein of the nervous system, which regulates the release and recycling of neurotransmitters in the synapses. It is also involved in several neurodegenerative conditions, including Parkinson’s disease and Multiple System Atrophy, where it forms toxic aggregates. The N-terminus of α-synuclein is of particular interest as it has been linked to both the physiological and pathological functions of the protein and undergoes post-translational modification. One such modification, N-terminal truncation, affects the aggregation propensity of the protein in vitro and is also found in aggregates from patients’ brains. To date, our understanding of the role of this modification has been limited by the many challenges of introducing biologically relevant N-terminal truncations with no overhanging starting methionine. Here, we present a method to produce N-terminally truncated variants of α-synuclein that do not carry extra terminal residues. We show that our method can generate highly pure protein to facilitate the study of this modification and its role in physiology and disease. Thanks to this method, we have determined that the first six residues of α-synuclein play an important role in the formation of the amyloids.

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α-Synuclein Aggregation is Triggered by Amyloid-β Oligomers via Heterogeneous Primary Nucleation

Vadukul

Thrush

Jin

et al. 2022

Preprint

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Neurodegenerative diseases are associated with the formation of amyloids in the nervous system. An increasing number of cases where amyloids of the same protein are found in different dementias is being reported. This observation complicates diagnosis and clinical intervention. Amyloids of the amyloid-β peptide or the protein α-synuclein are traditionally considered hallmarks of Alzheimer's and Parkinson's diseases, respectively. However, the co-occurrence of amyloids of these proteins has also been reported in patients diagnosed with either disease. Here, we provide new evidence about the protein composition of aggregates formed when these two proteins are co-present. We show that soluble species of amyloid-β can induce the aggregation of α-synuclein. The amyloid fibrils formed under these conditions are solely composed of α-synuclein to which amyloid-β can be found associated, but not as part of the core of the fibrils. Our data take us one step closer to understanding the complex nature of heterogenous aggregation in disease contexts which may aid clinical diagnosis and the development of therapeutic interventions.

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Rebecca J. Thrush

N-Terminal Acetylation of α-Synuclein Slows down Its Aggregation Process and Alters the Morphology of the Resulting Aggregates

Effects of N-terminal Acetylation on the Aggregation of Disease-related α-synuclein Variants

The Diagnostic Potential of Amyloidogenic Proteins

A Facile Method to Produce N-Terminally Truncated α-Synuclein

α-Synuclein Aggregation is Triggered by Amyloid-β Oligomers via Heterogeneous Primary Nucleation

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