CLR01 Protects Dopaminergic Neurons in Vitro and in Mouse Models of Parkinson's Disease
Ikusi/ Ireki
Data
2020-09-28Egilea
Bengoa Vergniory, Nora
Faggiani, Emilie
Ramos González, Paula
Kirkiz, Ecem
Connor-Robson, Natalie
Brown, Liam V.
Siddique, Ibrar
Li, Zizheng
Vingill, Siv
Cioroch, Milena
Cavaliere, Fabio
Threlfell, Sarah
Roberts, Bradley
Schrader, Thomas
Klaerner, Frank-Gerrit
Cragg, Stephanie
Dehay, Benjamin
Bitan, Gal
Matute Almau, Carlos José
Bezard, Erwan
Wade-Martins, Richard
Nature Communications 11(1) : (2020) // Article ID 4885
Laburpena
Parkinson's disease (PD) affects millions of patients worldwide and is characterized by alpha-synuclein aggregation in dopamine neurons. Molecular tweezers have shown high potential as anti-aggregation agents targeting positively charged residues of proteins undergoing amyloidogenic processes. Here we report that the molecular tweezer CLR01 decreased aggregation and toxicity in induced pluripotent stem cell-derived dopaminergic cultures treated with PD brain protein extracts. In microfluidic devices CLR01 reduced alpha-synuclein aggregation in cell somas when axonal terminals were exposed to alpha-synuclein oligomers. We then tested CLR01 in vivo in a humanized alpha-synuclein overexpressing mouse model; mice treated at 12 months of age when motor defects are mild exhibited an improvement in motor defects and a decreased oligomeric alpha-synuclein burden. Finally, CLR01 reduced alpha-synuclein-associated pathology in mice injected with alpha-synuclein aggregates into the striatum or substantia nigra. Taken together, these results highlight CLR01 as a disease-modifying therapy for PD and support further clinical investigation.