The role of RNA in the nanoscale organization of alpha-synuclein phase separation

The cellular accumulation of alpha-synuclein (aS) aggregates is a hallmark of several neurodegenerative diseases. Recent studies suggest that the aberrant transition of monomeric aS into solid-like aggregates may occur through an intermediate liquid-like state, where the protein partitions between dense and dilute phases. Although aS is not typically recognized as an RNA-binding protein, it can bind RNA under aggregation conditions, but its impact on aS liquid-like phases remains unexplored. Employing a combination of fluorescence spectroscopy techniques, we investigated aS dynamics in both phases in the presence of RNA. Our analysis revealed the formation of nanoclusters involved in initiating phase separation and uncovered heterogeneity within the dense phase, discovering that aS molecules exist in two distinct mobility states. Additionally, we demonstrated that RNA induces morphological changes and promotes the liquid-to-solid transition of aS dense phase. These findings underscore the active role of RNA in modulating aS phase transitions.