ABSTRACT
Mechanisms of amyloid inhibition remains poorly understood, in part because most protein targets of amyloid assembly are partially unfolded or intrinsically disordered, which hinders detailed structural characterization of protein-inhibitor complexes and structural-based mechanistic elucidation. Herein we employed a small molecule screening approach to identify inhibitors against three prototype amyloidogenic proteins: amylin, Aβ and tau. One remarkable class of inhibitors identified was catechol-containing compounds and redox-related quinones/anthraquinones. Further mechanistic studies determined that the redox state of the broad class of catechol-containing compounds is a key determinant of the amyloid inhibitor activities.
Competing Interest Statement
The authors have declared no competing interest.