Design of amyloidogenic peptide traps.
Danny D SahtoeEwa A AndrzejewskaHannah L HanEnrico RennellaMatthias M SchneiderGeorg MeislMargaret AhlrichsJustin DecarreauHannah NguyenAlex KangPaul LevineMila LambXinting LiAsim K BeraLewis E KayTuomas P J KnowlesJulien S BakerPublished in: Nature chemical biology (2024)
Segments of proteins with high β-strand propensity can self-associate to form amyloid fibrils implicated in many diseases. We describe a general approach to bind such segments in β-strand and β-hairpin conformations using de novo designed scaffolds that contain deep peptide-binding clefts. The designs bind their cognate peptides in vitro with nanomolar affinities. The crystal structure of a designed protein-peptide complex is close to the design model, and NMR characterization reveals how the peptide-binding cleft is protected in the apo state. We use the approach to design binders to the amyloid-forming proteins transthyretin, tau, serum amyloid A1 and amyloid β 1-42 (Aβ42). The Aβ binders block the assembly of Aβ fibrils as effectively as the most potent of the clinically tested antibodies to date and protect cells from toxic Aβ42 species.