TY - JOUR T1 - Drug repurposing screens identifies compounds that inhibit α-synuclein oligomers’ membrane disruption and block antibody interactions JF - bioRxiv DO - 10.1101/2022.10.06.511078 SP - 2022.10.06.511078 AU - Arun Kumar Somavarapu AU - Giulia Kleijwegt AU - Madhu Nagaraj AU - Parvez Alam AU - Janni Nielsen AU - Daniel Otzen Y1 - 2022/01/01 UR - http://biorxiv.org/content/early/2022/10/07/2022.10.06.511078.abstract N2 - Small soluble oligomers of the protein α-synuclein (αSO) have been linked to disruptions in neuronal homeostasis, contributing to the development of Parkinson’s Disease (PD). While this makes αSO an obvious drug target, the development of effective therapeutics against αSO are challenged by its low abundance and structural and morphological complexity. Here we employ two different approaches to neutralize toxic interactions made by αSOs with different cellular components. Firstly, we use available data to identify four neuronal proteins as likely candidates for αSO interactions, namely Cfl1, Uchl1, Sirt2 and SerRS. However, despite promising results when immobilized, all 4 proteins only bind weakly to αSO in solution in microfluidic assays, making them inappropriate for screening. In contrast, the formation of stable contacts formed between αSO and vesicles consisting of anionic lipids not only mimics a likely biological role of αSO but also provided a platform to screen two small molecule libraries for disruptors of these contacts. Of the 11 leads obtained in this way, 2 significantly impaired αSO contacts with other proteins in a sandwich ELISA assay using αSO-binding monoclonal antibodies and nanobodies. In addition, 5 of these leads suppressed α-synuclein amyloid formation. Thus a repurposing screening that directly targets a key culprit in PD pathogenesis shows therapeutic potential.HighlightsThe toxic oligomer formed by α-synuclein (αSO) is an important drug target.Neuronal proteins found by pull-down assays do not bind αSOs in solution.Liposome assay identifies 7 approved drugs reducing αSO membrane disruption.We identify different inhibitory mechanisms used by different compounds.Two top drug hits disrupt αSO binding to oligomer-specific antibodies.Competing Interest StatementThe authors have declared no competing interest.E. coliEscherichia coliα-synα-synuclein monomerαSOα-synuclein oligomerThTThioflavin TSPRSurface Plasmon ResonanceFIDAFlow Induced Dispersion Analysis ER -