Hybrids of polyphenolic/quinone acids, the potential preventive and therapeutic drugs for PD: Disaggregate α-Syn fibrils, inhibit inclusions, and repair damaged neurons in mice

Neurotoxic α-Syn fibers, the main components of Lewy bodies, play a key role in the development of PD characterized by a progressive loss of dopaminergic neurons. Here, we designed and synthesized the hybrids of polyphenolic/quinone acids. The candidate compounds showed high α-Syn aggregation inhibitory activities in vitro with IC₅₀ down to 1.6 μM. The inhibition went through the aggregation process by stabilizing the conformation of α-Syn proteostasis and preventing β-sheets aggregation, especially in the lag phase. Furthermore, the candidate drugs could disintegrate the preformed varisized aggregates into pony-size aggregates and functional monomers and continually inhibit the re-aggregation. The activities of anti-aggregation and aggregates depolymerization result in the reduction of inclusions in neuron cells. The candidate drugs also show high anti-oxidation and low cytotoxicity. They finally repair the damaged neurons in 6-OHDA-lesioned C57 mice and significantly improve PD-like symptoms of the PD model mice. The hybrids are promising molecules for PD prevention and therapy.© 2022 Elsevier Masson SAS. All rights reserved.

Inclusions; Neurons repair; Parkinson's disease; Protein disaggregation; α-Syn aggregation inhibition.