Andrii Kurochka scite author profile

Aggregation of the neuronal protein α-synuclein into amyloid fibrils plays a central role in the development of Parkinson’s disease. Growth of fibrils can be suppressed by blocking fibril ends from their interaction with monomeric proteins. In this work, we constructed inhibitors that bind to the ends of α-synuclein amyloid fibrils with very high affinity. They are based on synthetic α-synuclein dimers and interact with fibrils via two monomeric subunits adopting conformation that efficiently blocks fibril elongation. By tuning the charge of dimers, we further enhanced the binding affinity and prepared a construct that inhibits fibril elongation at nanomolar concentration (IC50 ≈ 20 nM). To the best of our knowledge, it is the most efficient inhibitor of α-synuclein fibrillization.

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Influence of Lipid Membranes on α-Synuclein Aggregation

Kurochka

Bouř

Shvadchak

2021

ACS Chem. Neurosci.

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α-Synuclein is a neuronal protein involved in synaptic vesicle trafficking. During the course of Parkinson’s disease, it aggregates, forming amyloid fibrils that accumulate in the midbrain. This pathological fibrillization process is strongly modulated by physiological interactions of α-synuclein with lipid membranes. However, the detailed mechanism of this effect remains unclear. In this work, we used environment-sensitive fluorescent dyes to study the influence of model lipid membranes on the kinetics of α-synuclein fibrillization. We observed that formation of the fibrils from α-synuclein monomers is strongly delayed even by small amounts of lipids. Furthermore, we found that membrane-bound α-synuclein monomers are not involved in fibril elongation. Hence, presence of lipids slows down fibril growth proportionally to the fraction of membrane-bound protein.

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Fluorescent Probe for Selective Imaging of α-Synuclein Fibrils in Living Cells

Gaur

Galkin

Kurochka

et al. 2021

ACS Chem. Neurosci.

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Plaques of amyloid fibrils composed of neuronal protein α-synuclein are one of the hallmarks of Parkinson’s disease, and their selective imaging is crucial to study the mechanism of its pathogenesis. However, the existing fluorescent probes for amyloids are efficient only in solution and tissue systems, and they are not selective enough for the visualization of amyloid fibrils in living cells. In this study, we present two molecular rotor-based probes RB1 and RB2. These thiazolium probes show affinity to α-synuclein fibrils and turn-on fluorescence response upon interactions. Because of its extended π-conjugation and high rotational degree of freedom, RB1 exhibits a 76 nm red-shift of absorption maxima and 112-fold fluorescence enhancement upon binding to amyloid fibrils. Owing to its strong binding affinity to α-synuclein fibrils, RB1 can selectively stain them in the cytoplasm of living HeLa and SH-SY5Y cells with high optical contrast. RB1 is a cell-permeable and noncytotoxic probe. Taken together, we have demonstrated that RB1 is an amyloid probe with an outstanding absorption red-shift that can be used for intracellular imaging of α-synuclein fibrils.

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α-Synuclein conformations followed by vibrational optical activity. Simulation and understanding of the spectra

Kurochka

Průša

Kessler

et al. 2021

Phys. Chem. Chem. Phys.

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Andrii Kurochka

α-Synuclein Dimers as Potent Inhibitors of Fibrillization

Influence of Lipid Membranes on α-Synuclein Aggregation

Fluorescent Probe for Selective Imaging of α-Synuclein Fibrils in Living Cells

α-Synuclein conformations followed by vibrational optical activity. Simulation and understanding of the spectra

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