Quinazolinone Acrylamides as Multifunctional Anti-Alzheimer Agents: Unraveling their Modulating Efficacy on Amyloidogenic Peptide Assembly at the Molecular Level.

Amyloid β peptide (Aβ) aggregation in the brain represents an initial detrimental episode in the etiology of Alzheimer's disease (AD). Recently, it has been discovered that inhibiting Aβ neurotoxicity by modulating highly toxic Aβ oligomers (AβOs) is more rewarding than reducing the overall amyloid fibril production. In line with this, here, we discussed the efficiency of multifunctional quinazolinone and vanillin acrylamide hybrids () as modulators of aggregation behavior. The thioflavin T (ThT) assay inferred dose-dependent intensification of Aβ aggregation by , which may be due to the coassembly of hybrids with AβOs. Field emission-scanning electron microscopy (FE-SEM) disclosed enormously distinctive differences among the aggregate morphologies of and , which intensely reinforced the modulatory action of on the molecular assembly of the Aβ peptide. Supportingly, the Alamar Blue assay proved as an effective neuroprotector in the SH-SY5Y cell line against Aβ-induced toxicity. Consistent with these findings, western blot data showed an increased number of Aβ fibrils in SH-SY5Y cells treated with QVA. In our molecular docking approach, all ligands had identical binding positions at sites 4-6 of the Aβ fibril structure (PDB ID: 2M4J). In the interaction pattern, ligands spanned across five Aβ monomers that were stacked together and stabilized the fibril formation by hydrophobic interactions with the Aβ monomer residues as well as neighboring ligands. In the molecular dynamics simulations, the lower RMSD and similar rGyr values for the ligands further supported the stability of the ligands inside the binding pocket of the 2M4J Aβ fibril. Overall, the present study provided a mechanistic explanation at the atomic level for the impact of small molecules () on Aβ fibril stabilization for the first time. Hence, we strongly believe that these findings will be a resource for the development of imminent drug candidates against AD that can manipulate Aβ aggregate formation.