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Abstract
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A central feature of a variety of related neurological disorders, including amyotrophic lateral sclerosis (ALS), is the deposition of misfolded protein aggregates in key regions of the human brain. Hence, targeting aggregation-prone SOD1 with small molecules can be used to design strategies to inhibit its aggregation. Based on molecular docking and molecular dynamics (MD) simulation, this study suggested that plant flavonoids can act as a potent anti-amyloidogenic polyphenol against SOD1 aggregation. Initial screening of flavonoids against protein aggregates identifed Rosmarinic acid and Salvianolic acid A as promising drug leads that can effectively inhibit pathogenic behaviour. Our results showed that Salvianolic acid A reduces the β-sheet content and increases the structural stability, hydrophobicity, flexibility, and signifcantly the lost hydrogen bonds of the mutant compared to other compounds. Besides, we revealed changes in the free energy landscape (FEL) of WT-SOD1 and mutant states (unbound/bound) to differentiate aggregation. We deduced that the abovementioned flavonoids can deviation the pathogenic behaviour of the D124 V mutant. Among them, Salvianolic acid A showed the greatest therapeutic potential against the D124 V mutant. Hence, Salvianolic acid A could serve as a drug candidate for the design of highly efcient inhibitors in reducing fatal and irreversible ALS
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