QIAD assay for quantitating a compound’s efficacy in elimination of toxic Aβ oligomers

Brener, Oleksandr; Dunkelmann, Tina; Gremer, Lothar; Groen, Thomas van; Mirecka, Ewa A.; Kadish, Inga; Willuweit, Antje; Kutzsche, Janine; Jürgens, Dagmar; Rudolph, Stephan; Tusche, Markus; Bongen, Patrick; Pietruszka, Jörg; Oesterhelt, Filipp; Langen, Karl‐Josef; Demuth, Hans‐Ulrich; Janssen, Arnold; Hoyer, Wolfgang; Funke, Susanne Aileen; Nagel-Steger, Luitgard; Willbold, Dieter

doi:10.1038/srep13222

Cited by 42 publications

(106 citation statements)

References 32 publications

(44 reference statements)

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“…This is not surprising given the fact that the sample huPrP(23-144)-Aβ* contains eight times more Aβ (monomer equivalent) than huPrP(23-144) molecules. Not every monomer within the oligomer (containing 23 monomer units on average 47 ) might be able to bind to huPrP in the same way and have therefore the same conformation 33 , as described above. These non-identical conformers can have different origins: (i) different types of monomers within the oligomer, because not every monomer can bind to huPrP (Aβ-huPrP vs. Aβ-Aβ interactions);…”

Section: Discussionmentioning

confidence: 99%

Structural details of amyloid beta oligomers in complex with human prion protein as revealed by solid-state MAS NMR spectroscopy

Koenig

Roesener

Gremer

et al. 2020

Preprint

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Human PrP (huPrP) is a high-affinity receptor for oligomeric Aβ. Synthetic oligomeric Aβ species are known to be heterogeneous, dynamic and transient, rendering their structural investigation particularly challenging. Here, we used huPrP to preserve Aβ oligomers by coprecipitating them into large hetero-assemblies to investigate the conformation of Aβ(1-42) oligomers and huPrP in the complex by solid-state MAS NMR spectroscopy. The disordered N-terminal region of huPrP becomes immobilized in the complex and therefore visible in dipolar spectra without adopting chemical shifts characteristic of a regular secondary structure. Most of the well-defined C-terminal part of huPrP is part of the rigid complex, and solid-state NMR spectra suggest a loss in regular secondary structure in the last two αhelices. For Aβ(1-42) oligomers in complex with huPrP, secondary chemical shifts reveal a substantial β-strand content. Importantly, not all Aβ(1-42) molecules within the complex have identical conformations. Comparison with the chemical shifts of synthetic A fibrils suggests that the Aβ oligomer preparation represents a heterogeneous mixture of -strandrich assemblies, of which some have the potential to evolve and elongate into different fibril polymorphs, reflecting a general propensity of Aβ to adopt variable β-structure conformers.

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Section: Discussionmentioning

confidence: 99%

Structural details of amyloid beta oligomers in complex with human prion protein as revealed by solid-state MAS NMR spectroscopy

Koenig

Roesener

Gremer

et al. 2020

Preprint

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“…Previously, we have developed the all-D-enantiomeric peptide D3, which specifically eliminates neurotoxic Aβ oligomers in vitro (Brener et al, 2015;Funke and Willbold, 2012), has a high oral bioavailability (Jiang et al, 2015) and is therapeutically active in vivo (van Groen et al, 2012;van Groen et al, 2013;van Groen et al, 2008) even after oral administration (Funke et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

“…This lead compound consists of 12 amino acid residues each in D-enantiomeric configuration. In vitro assays revealed that D3 specifically eliminates Aβ oligomers (Brener et al, 2015;Funke and Willbold, 2012), which are supposed to be the most toxic Aβ species (Benilova et al, 2012;DaRocha-Souto et al, 2011;Lambert et al, 1998;Walsh et al, 2002). In studies with AD transgenic mice, D3 reduced the Aβ plaque load as well as cerebral inflammation and showed an improvement in cognition (van Groen et al, 2012;van Groen et al, 2013;van Groen et al, 2008) even after oral administration (Funke et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Surprisingly high stability of the Aβ oligomer eliminating all-d-enantiomeric peptide D3 in media simulating the route of orally administered drugs

Elfgen

Santiago‐Schübel

Gremer

et al. 2017

European Journal of Pharmaceutical Sciences

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The aggregation of the amyloid β protein (Aβ) plays an important role in the pathology of Alzheimer's disease. Previously, we have developed the all-d-enantiomeric peptide D3, which is able to eliminate neurotoxic Aβ oligomers in vitro and improve cognition in a transgenic Alzheimer's disease mouse model in vivo even after oral administration. d-Peptides are expected to be more resistant against enzymatic proteolysis compared to their l-enantiomeric equivalents, and indeed, a pharmacokinetic study with tritiated D3 revealed the oral bioavailability to be about 58%. To further investigate the underlying properties, we examined the stability of D3 in comparison to its corresponding all-l-enantiomeric mirror image l-D3 in media simulating the gastrointestinal tract, blood and liver. Potential metabolization was followed by reversed-phase high-performance liquid chromatography. In simulated gastric fluid, D3 remained almost completely stable (89%) within 24h, while 70% of l-D3 was degraded within the same time period. Notably, in simulated intestinal fluid, D3 also remained stable (96%) for 24h, whereas l-D3 was completely metabolized within seconds. In human plasma and human liver microsomes, l-D3 was metabolized several hundred times faster than D3. The remarkably high stability may explain the high oral bioavailability seen in previous studies allowing oral administration of the drug candidate. Thus, all-d-enantiomeric peptides may represent a promising new compound class for drug development.

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“…However, more recently, investigation of changes in the expression of several presynaptic and postsynaptic proteins in primary neurons treated with a low-molecular weight and high-molecular weight b-amyloid oligomers, revealed that both oligomers significantly reduced expression of several pre synaptic proteins, including synapsin [11]. Since strong evidence exists for a central role of b-amyloid oligomers in the pathogenesis of Alzheimer's disease [3], changes in synapsin I levels observed in this disease seems to be specific response for pathological events triggered by presence of b-amyloid oligomers. As a specific change within viable nerve endings is treated also the decrease of synapsin Ib in nerve endings associated with HIV-1 infection.…”

Section: Discussionmentioning

confidence: 99%

Reduced level of synapsin I protein in the rat striatum after intraventricular administration of proteasome inhibitors: preliminary studies

et al. 2015

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QIAD assay for quantitating a compound’s efficacy in elimination of toxic Aβ oligomers

Cited by 42 publications

References 32 publications

Structural details of amyloid beta oligomers in complex with human prion protein as revealed by solid-state MAS NMR spectroscopy

Structural details of amyloid beta oligomers in complex with human prion protein as revealed by solid-state MAS NMR spectroscopy

Surprisingly high stability of the Aβ oligomer eliminating all-d-enantiomeric peptide D3 in media simulating the route of orally administered drugs

Reduced level of synapsin I protein in the rat striatum after intraventricular administration of proteasome inhibitors: preliminary studies

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