Anne K. Schütz scite author profile

Despite its central importance for understanding the molecular basis of Alzheimer's disease (AD), high-resolution structural information on amyloid β-peptide (Aβ) fibrils, which are intimately linked with AD, is scarce. We report an atomic-resolution fibril structure of the Aβ1-40 peptide with the Osaka mutation (E22Δ), associated with early-onset AD. The structure, which differs substantially from all previously proposed models, is based on a large number of unambiguous intra- and intermolecular solid-state NMR distance restraints.

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Structure-based drug design identifies polythiophenes as antiprion compounds

Herrmann

et al. 2015

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Prions cause transmissible spongiform encephalopathies for which no treatment exists. Prions consist of PrP(Sc), a misfolded and aggregated form of the cellular prion protein (PrP(C)). We explore the antiprion properties of luminescent conjugated polythiophenes (LCPs) that bind and stabilize ordered protein aggregates. By administering a library of structurally diverse LCPs to the brains of prion-infected mice via osmotic minipumps, we found that antiprion activity required a minimum of five thiophene rings bearing regularly spaced carboxyl side groups. Solid-state nuclear magnetic resonance analyses and molecular dynamics simulations revealed that anionic side chains interacted with complementary, regularly spaced cationic amyloid residues of model prions. These findings allowed us to extract structural rules governing the interaction between LCPs and protein aggregates, which we then used to design a new set of LCPs with optimized binding. The new set of LCPs showed robust prophylactic and therapeutic potency in prion-infected mice, with the lead compound extending survival by >80% and showing activity against both mouse and hamster prions as well as efficacy upon intraperitoneal administration into mice. These results demonstrate the feasibility of targeted chemical design of compounds that may be useful for treating diseases of aberrant protein aggregation such as prion disease.

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The Amyloid–Congo Red Interface at Atomic Resolution

Schütz

Soragni

Hornemann³

et al. 2011

Angew Chem Int Ed

136

116

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The analytical “gold standard” for amyloid characterization and diagnostics, Congo red, was studied in complex with an amyloid (see picture). Based on details of the binding mode, a point mutation of the amyloid was prepared which has the same three‐dimensional structure as the wild‐type protein but is not congophilic. This surprising specificity may aid in the design of selective anti‐amyloidogenic drugs.

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A Sedimented Sample of a 59 kDa Dodecameric Helicase Yields High‐Resolution Solid‐State NMR Spectra

et al. 2012

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A peptide co-solvent under scrutiny: self-aggregation of 2,2,2-trifluoroethanol

Scharge

Cézard

Zielke

et al. 2007

Phys. Chem. Chem. Phys.

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Trifluoroethanol (TFE) and its aggregates are studied via supersonic jet FTIR and Raman spectroscopy as well as by quantum chemistry and simple force field approaches. A multi-slit nozzle is introduced to study collisionally excited clusters. Efforts are made to extract harmonic frequencies from experiment for better comparison to theory. Based on deuteration, the OH stretching anharmonicity changes weakly upon dimerization, but increases for trimers. Among the possible dimer conformations, only an all-gauche, homoconfigurational, compact, OH-F connected structure is observed in an extreme case of chiral discrimination. Quantum tunneling assisted pathways for this surprising helicity synchronization are postulated. The oscillator coupling in hydrogen-bonded trimers is analyzed. Trans conformations of TFE start to become important for trimers and probably persist in the liquid state. Simple force fields can be refined to capture some molecular recognition features of TFE dimer, but their limitations are emphasized.

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Prion Fibrils of Ure2p Assembled under Physiological Conditions Contain Highly Ordered, Natively Folded Modules

Loquet

Bousset

Gardiennet

et al. 2009

Journal of Molecular Biology

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The Molecular Organization of the Fungal Prion HET-s in Its Amyloid Form

Wasmer

Schütz

Loquet

et al. 2009

Journal of Molecular Biology

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MicroRNAs are minor constituents of extracellular vesicles that are rarely delivered to target cells

et al. 2021

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Mammalian cells release different types of vesicles, collectively termed extracellular vesicles (EVs). EVs contain cellular microRNAs (miRNAs) with an apparent potential to deliver their miRNA cargo to recipient cells to affect the stability of individual mRNAs and the cells’ transcriptome. The extent to which miRNAs are exported via the EV route and whether they contribute to cell-cell communication are controversial. To address these issues, we defined multiple properties of EVs and analyzed their capacity to deliver packaged miRNAs into target cells to exert biological functions. We applied well-defined approaches to produce and characterize purified EVs with or without specific viral miRNAs. We found that only a small fraction of EVs carried miRNAs. EVs readily bound to different target cell types, but EVs did not fuse detectably with cellular membranes to deliver their cargo. We engineered EVs to be fusogenic and document their capacity to deliver functional messenger RNAs. Engineered fusogenic EVs, however, did not detectably alter the functionality of cells exposed to miRNA-carrying EVs. These results suggest that EV-borne miRNAs do not act as effectors of cell-to-cell communication.

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Anne K. Schütz

Atomic‐Resolution Three‐Dimensional Structure of Amyloid β Fibrils Bearing the Osaka Mutation

Structure-based drug design identifies polythiophenes as antiprion compounds

The Amyloid–Congo Red Interface at Atomic Resolution

A Sedimented Sample of a 59 kDa Dodecameric Helicase Yields High‐Resolution Solid‐State NMR Spectra

A peptide co-solvent under scrutiny: self-aggregation of 2,2,2-trifluoroethanol

Prion Fibrils of Ure2p Assembled under Physiological Conditions Contain Highly Ordered, Natively Folded Modules

The Molecular Organization of the Fungal Prion HET-s in Its Amyloid Form

MicroRNAs are minor constituents of extracellular vesicles that are rarely delivered to target cells

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