A unified in vitro to in vivo fluorescence lifetime screening platform yields amyloid β aggregation inhibitors

Abstract

AbstractInhibiting the aggregation of amyloid β (1-42) is a promising strategy for the development of disease-modifying Alzheimer’s disease therapeutics. To date, however, no sufficiently efficacious inhibitors have been identified, despite the best efforts of >200 advanced drug development campaigns. This failure can be attributed to limitations in current compound screening and in vivo validation assays. Here, we report an in vitro to in vivo screening platform based on the use of a fluorescence lifetime aggregation sensor. The microfluidic “nanoFLIM” assay developed circumvents issues that plague conventional assays, such as lack of reproducibility, high cost and artefactual false read-outs. The fluorescence lifetime sensor can also dynamically monitor peptide aggregation in cellular and Caenorhabditis elegans disease models, providing directly comparable aggregation kinetics, which is not achievable by any other method. The power of this unified system for accelerating hit-to-lead strategies, lowering attrition rates and expediting in vivo screening, was demonstrated with a pilot screening campaign of 445 compounds, revealing a new inhibitor that can inhibit amyloid β self-assembly in vitro as well as in cellular and whole organism disease models.