Amyloid-β (Aβ1-42) prefibrillar aggregates are considered the most neurotoxic amyloid species, yet their transient and heterogeneous nature makes selective detection challenging. Many fluorescent probes also fail to discriminate Aβ from homologous peptides such as IAPP, leading to poor specificity. We report a peptide-guided late-stage diversification strategy to generate BODIPY-based probes highly selective for prefibrillar Aβ1-42. A rationally engineered cyclic peptide derived from the C-terminal region of Aβ1-42 provides conformational rigidity and precise molecular recognition. Conjugation to BODIPY fluorophores afforded peptide-dye hybrids systematically evaluated for selectivity and photophysical response. A controlled aggregation protocol enabling reproducible generation of prefibrillar Aβ species was established to validate probe performance. A Sonogashira-derived conjugate (probe 8) showed strong fluorescence turn-on and selective affinity for prefibrillar Aβ1-42, with no response to IAPP aggregates. In neuronal cells, probe 8 outperformed conventional antibodies, supporting its potential for mechanistic studies and early Alzheimer's disease diagnostics.
Panek et al. (Wed,) studied this question.