Cu2+-Induced self-assembly and amyloid formation of a cyclic d,l-α-peptide: structure and function

Cu2+-Induced self-assembly and amyloid formation of a cyclic d,l-α-peptide: structure and function

In a wide spectrum of neurodegenerative diseases, self-assembly of pathogenic proteins to cytotoxic intermediates is accelerated by the presence of metal ions such as Cu2+. Only low concentrations of these early transient oligomeric intermediates are present in a mixture of species during fibril for...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2022-03, Vol.24 (11), p.6699-6715
Hauptverfasser: Klose, Daniel, Sahithya Phani Babu Vemulapalli, Richman, Michal, Rudnick, Safra, Vered Aisha, Abayev, Meital, Chemerovski, Marina, Shviro, Meital, Zitoun, David, Majer, Katharina, Wili, Nino, Goobes, Gil, Griesinger, Christian, Jeschke, Gunnar, Rahimipour, Shai
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Agglomeration
Copper
Dimers
Histidine
Low concentrations
Oligomerization
Peptides
Proteins
Selectivity
Self-assembly
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container_end_page 6715
container_issue 11
container_start_page 6699
container_title Physical chemistry chemical physics : PCCP
container_volume 24
creator Klose, Daniel
Sahithya Phani Babu Vemulapalli
Richman, Michal
Rudnick, Safra
Vered Aisha
Abayev, Meital
Chemerovski, Marina
Shviro, Meital
Zitoun, David
Majer, Katharina
Wili, Nino
Goobes, Gil
Griesinger, Christian
Jeschke, Gunnar
Rahimipour, Shai
description In a wide spectrum of neurodegenerative diseases, self-assembly of pathogenic proteins to cytotoxic intermediates is accelerated by the presence of metal ions such as Cu2+. Only low concentrations of these early transient oligomeric intermediates are present in a mixture of species during fibril formation, and hence information on the extent of structuring of these oligomers is still largely unknown. Here, we investigate dimers as the first intermediates in the Cu2+-driven aggregation of a cyclic d,l-α-peptide architecture. The unique structural and functional properties of this model system recapitulate the self-assembling properties of amyloidogenic proteins including β-sheet conformation and cross-interaction with pathogenic amyloids. We show that a histidine-rich cyclic d,l-α-octapeptide binds Cu2+ with high affinity and selectivity to generate amyloid-like cross-β-sheet structures. By taking advantage of backbone amide methylation to arrest the self-assembly at the dimeric stage, we obtain structural information and characterize the degree of local order for the dimer. We found that, while catalytic amounts of Cu2+ promote aggregation of the peptide to fibrillar structures, higher concentrations dose-dependently reduce fibrillization and lead to formation of spherical particles, showing self-assembly to different polymorphs. For the initial self-assembly step to the dimers, we found that Cu2+ is coordinated on average by two histidines, similar to self-assembled peptides, indicating that a similar binding interface is perpetuated during Cu2+-driven oligomerization. The dimer itself is found in heterogeneous conformations that undergo dynamic exchange, leading to the formation of different polymorphs at the initial stage of the aggregation process.
doi_str_mv 10.1039/d1cp05415e
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source Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects Agglomeration
Copper
Dimers
Histidine
Low concentrations
Oligomerization
Peptides
Proteins
Selectivity
Self-assembly
title Cu2+-Induced self-assembly and amyloid formation of a cyclic d,l-α-peptide: structure and function
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