Multi-target amyloid probing and inhibition using basic orange fluorescence†
Abstract
Misfolding and aggregation of amyloid peptides are critical pathological events in numerous protein misfolding diseases (PMDs), such as Alzheimer's disease (AD), type II diabetes (T2D), and medullary thyroid carcinoma (MTC). While developing effective amyloid detectors and inhibitors to probe and prevent amyloid aggregation is a crucial diagnostic and therapeutic strategy for treating debilitating diseases, it is important to recognize that amyloid detection and amyloid prevention are two distinct strategies for developing pharmaceutical drugs. Here, we reported novel fluorescent BO21 as a versatile “dual-function, multi-target” amyloid probe and inhibitor for detecting and preventing amyloid aggregates of different sequences (Aβ, hIAPP, or hCT) and sizes (monomers, oligomers, or fibrils). As an amyloid probe, BO21 demonstrated a higher sensitivity and binding affinity to oligomeric and fibrillar amyloids compared to ThT, resulting in up to 18–39 fold fluorescence enhancements. As an amyloid inhibitor, BO21 also demonstrated its strong amyloid inhibition property by effectively preventing amyloid aggregation, disaggregating preformed amyloid fibrils, and reducing amyloid-induced cytotoxicity. The findings of this study offer a new perspective for the discovery of dual-functional amyloid probes and inhibitors, which have the potential to greatly expand the diagnostic and therapeutic treatments available for PMDs.