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Modulation of α-synuclein in vitro aggregation kinetics by its alternative splice isoforms

Alexander Röntgen, Zenon Toprakcioglu, James E. Tomkins, Michele Vendruscolo

2024Proceedings of the National Academy of Sciences22 citationsDOIOpen Access PDF

Abstract

The misfolding and aggregation of α-synuclein is linked to a family of neurodegenerative disorders known as synucleinopathies, the most prominent of which is Parkinson’s disease (PD). Understanding the aggregation process of α-synuclein from a mechanistic point of view is thus of key importance. SNCA , the gene encoding α-synuclein, comprises six exons and produces various isoforms through alternative splicing. The most abundant isoform is expressed as a 140-amino acid protein (αSyn-140), while three other isoforms, αSyn-126, αSyn-112, and αSyn-98, are generated by skipping exon 3, exon 5, or both exons, respectively. In this study, we performed a detailed biophysical characterization of the aggregation of these four isoforms. We found that αSyn-112 and αSyn-98 exhibit accelerated aggregation kinetics compared to αSyn-140 and form distinct aggregate morphologies, as observed by transmission electron microscopy. Moreover, we observed that the presence of relatively small amounts of αSyn-112 accelerates the aggregation of αSyn-140, significantly reducing the aggregation half-time. These results indicate a potential role of alternative splicing in the pathological aggregation of α-synuclein and provide insights into how this process could be associated with the development of synucleinopathies.

Topics & Concepts

ExonSynucleinopathiesGene isoformAlternative splicingRNA splicingExon skippingPoint mutationAlpha-synucleinProtein aggregationBiologyChemistryCell biologyBiochemistryGeneMutationParkinson's diseaseRNADiseaseMedicinePathologyParkinson's Disease Mechanisms and Treatmentsbiodegradable polymer synthesis and propertiesGenetic Neurodegenerative Diseases