Small Molecule Decoys of Aggregation for Elimination of Aβ-Peptide Toxicity.
Sho OasaValentina L KouznetsovaAnn TiimanVladana VukojevicIgor F TsigelnyLars TereniusPublished in: ACS chemical neuroscience (2023)
Several lines of evidence suggest that a characteristic of the neuropathology of Alzheimer's disease (AD) is the aggregation of the amyloid beta peptides (Aβ), fragments of the human amyloid precursor protein (hAPP). The dominating species are the Aβ40 and Aβ42 fragments with 40 and 42 amino acids, respectively. Aβ initially forms soluble oligomers that continue to expand to protofibrils, suggestively the neurotoxic intermediates, and thereafter turn into insoluble fibrils that are markers of the disease. Using the powerful tool of pharmacophore simulation, we selected small molecules not known to possess central nervous system (CNS) activity but that might interact with Aβ aggregation, from the NCI Chemotherapeutic Agents Repository, Bethesda, MD. We assessed the activity of these compounds on Aβ aggregation using the thioflavin T fluorescence correlation spectroscopy (ThT-FCS) assay. Förster resonance energy transfer-based fluorescence correlation spectroscopy (FRET-FCS) was used to characterize the dose-dependent activity of selected compounds at an early stage of Aβ aggregation. Transmission electron microscopy (TEM) confirmed that the interfering substances block fibril formation and identified the macrostructures of Aβ aggregates formed in their presence. We first found three compounds generating protofibrils with branching and budding never observed in the control. One compound generated a two-dimensional sheet structure and another generated a double-stranded filament. Importantly, these compounds generating protofibrils with altered macrostructure protected against Aβ-induced toxicity in a cell model while showing no toxicity in a model of cognition in normal mice. The data suggest that the active compounds act as decoys turning the aggregation into nontoxic trajectories and pointing toward novel approaches to therapy.
Keyphrases
- energy transfer
- quantum dots
- early stage
- small molecule
- amino acid
- single molecule
- oxidative stress
- high resolution
- molecular dynamics
- endothelial cells
- electron microscopy
- type diabetes
- single cell
- radiation therapy
- mesenchymal stem cells
- cognitive decline
- protein protein
- stem cells
- binding protein
- machine learning
- deep learning
- bone marrow
- mild cognitive impairment
- fluorescent probe
- stress induced
- high fat diet induced
- cell therapy
- pluripotent stem cells
- metabolic syndrome
- adipose tissue
- blood brain barrier
- living cells
- induced pluripotent stem cells
- drinking water
- insulin resistance
- depressive symptoms