Bis-chalcone polyphenols with potential preventive and therapeutic effects on PD: Design, synthesis and in vitro disaggregation activity against α-synuclein oligomers and fibrils

Bis-chalcone polyphenols with potential preventive and therapeutic effects on PD: Design, synthesis and in vitro disaggregation activity against α-synuclein oligomers and fibrils

α-Syn fibrils, which are neurotoxic, play a key role in the development of PD. Maintaining α-Syn proteostasis by suitable molecule ligands is an effective approach to prevent aggregation. Disintegrating the existed oligomers and fibrils into individual α-Syn by small molecular compounds is a more ef...

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Veröffentlicht in:European journal of medicinal chemistry 2022-09, Vol.239, p.114529-114529, Article 114529
Hauptverfasser: Jiang, Bing, Han, Feng, Lü, Ming-Huan, Wang, Zhen-Ping, Liu, Wei, Zhang, Yun-Xiao, Xu, Ji, Li, Rui-Jun
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Bis-chalcone polyphenols
Disintegration of oligomer and fibril
Drug candidates
Mechanism
Synthesis
α-Synuclein aggregation inhibitor
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container_end_page 114529
container_issue
container_start_page 114529
container_title European journal of medicinal chemistry
container_volume 239
creator Jiang, Bing
Han, Feng
Lü, Ming-Huan
Wang, Zhen-Ping
Liu, Wei
Zhang, Yun-Xiao
Xu, Ji
Li, Rui-Jun
description α-Syn fibrils, which are neurotoxic, play a key role in the development of PD. Maintaining α-Syn proteostasis by suitable molecule ligands is an effective approach to prevent aggregation. Disintegrating the existed oligomers and fibrils into individual α-Syn by small molecular compounds is a more efficient way to treat PD. This work designed and synthesized two series of bis-chalcone polyphenol compounds, which possess a sheet-like conjugated skeleton with stronger H-bonding, π-stacking, and hydrophobic interaction with α-Syn protein residues. Some compounds have shown high α-Syn aggregation inhibitory activities in vitro with IC50 down to 0.64 μM. The inhibition goes throughout the aggregation process from the lag to the stationary phase by stabilizing α-Syn proteostasis conformation and preventing β-sheets aggregation, especially in the lag phase. In addition, the inhibitors present good disintegration abilities against the existed α-Syn oligomers and fibrils. The preliminary mechanism studies suggest that the inhibitors could quickly and randomly bind to the specific site closed to the β-sheet domain in the fibril, resulting in unstable and collapse of the protein fibril and yielding a complex system with aggregates of different sizes and monomers. The inhibitors, which could penetrate the blood-brain barrier, are expected to develop into the drug candidates for PD targeting α-Syn aggregation. [Display omitted] •Bis-chalcone polyphenols possess high inhibitory activity on α-Syn aggregation.•The preliminary mechanism of inhibition is illuminated.•Candidates possess disintegration ability against the existed α-Syn oligomers and fibrils, and the mechanism is proposed.•The compounds show the potential therapeutical effect for PD.
doi_str_mv 10.1016/j.ejmech.2022.114529
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Maintaining α-Syn proteostasis by suitable molecule ligands is an effective approach to prevent aggregation. Disintegrating the existed oligomers and fibrils into individual α-Syn by small molecular compounds is a more efficient way to treat PD. This work designed and synthesized two series of bis-chalcone polyphenol compounds, which possess a sheet-like conjugated skeleton with stronger H-bonding, π-stacking, and hydrophobic interaction with α-Syn protein residues. Some compounds have shown high α-Syn aggregation inhibitory activities in vitro with IC50 down to 0.64 μM. The inhibition goes throughout the aggregation process from the lag to the stationary phase by stabilizing α-Syn proteostasis conformation and preventing β-sheets aggregation, especially in the lag phase. In addition, the inhibitors present good disintegration abilities against the existed α-Syn oligomers and fibrils. The preliminary mechanism studies suggest that the inhibitors could quickly and randomly bind to the specific site closed to the β-sheet domain in the fibril, resulting in unstable and collapse of the protein fibril and yielding a complex system with aggregates of different sizes and monomers. The inhibitors, which could penetrate the blood-brain barrier, are expected to develop into the drug candidates for PD targeting α-Syn aggregation. 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Maintaining α-Syn proteostasis by suitable molecule ligands is an effective approach to prevent aggregation. Disintegrating the existed oligomers and fibrils into individual α-Syn by small molecular compounds is a more efficient way to treat PD. This work designed and synthesized two series of bis-chalcone polyphenol compounds, which possess a sheet-like conjugated skeleton with stronger H-bonding, π-stacking, and hydrophobic interaction with α-Syn protein residues. Some compounds have shown high α-Syn aggregation inhibitory activities in vitro with IC50 down to 0.64 μM. The inhibition goes throughout the aggregation process from the lag to the stationary phase by stabilizing α-Syn proteostasis conformation and preventing β-sheets aggregation, especially in the lag phase. In addition, the inhibitors present good disintegration abilities against the existed α-Syn oligomers and fibrils. The preliminary mechanism studies suggest that the inhibitors could quickly and randomly bind to the specific site closed to the β-sheet domain in the fibril, resulting in unstable and collapse of the protein fibril and yielding a complex system with aggregates of different sizes and monomers. The inhibitors, which could penetrate the blood-brain barrier, are expected to develop into the drug candidates for PD targeting α-Syn aggregation. [Display omitted] •Bis-chalcone polyphenols possess high inhibitory activity on α-Syn aggregation.•The preliminary mechanism of inhibition is illuminated.•Candidates possess disintegration ability against the existed α-Syn oligomers and fibrils, and the mechanism is proposed.•The compounds show the potential therapeutical effect for PD.</abstract><pub>Elsevier Masson SAS</pub><doi>10.1016/j.ejmech.2022.114529</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0003-4923-9496</orcidid></addata></record>
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subjects Bis-chalcone polyphenols
Disintegration of oligomer and fibril
Drug candidates
Mechanism
Synthesis
α-Synuclein aggregation inhibitor
title Bis-chalcone polyphenols with potential preventive and therapeutic effects on PD: Design, synthesis and in vitro disaggregation activity against α-synuclein oligomers and fibrils
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