In silico analysis of SOD1 aggregation inhibition modes of tertiary amine pyrazolone and pyrano coumarin ferulate as ALS drug candidates

化学 肌萎缩侧索硬化 SOD1 香豆素 吡唑啉酮 抗氧化剂 立体化学 生物信息学 药品 超氧化物歧化酶 生物化学 药理学 疾病 有机化学 病理 医学 基因
作者
Aziza Rahman,Bondeepa Saikia,Anupaul Baruah
出处
期刊:Physical Chemistry Chemical Physics [The Royal Society of Chemistry]
卷期号:25 (39): 26833-26846 被引量:1
标识
DOI:10.1039/d3cp03978a
摘要

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease, the familial form (fALS) of which is often cognate to mutations in the antioxidant enzyme Cu/Zn superoxide dismutase 1 (SOD1) leading to misfolding and aggregation. Two small molecules, a tertiary amine pyrazolone (TAP) and a pyrano coumarin ferulate (PCF) were suggested to be ALS drug candidates following experimental observation of their ability to inhibit SOD1 protein misfolding and aggregation. The present work aims at computational investigation of these experimentally proposed drug candidates to gain insight into their mechanism of SOD1 misfolding and aggregation inhibition. On the basis of molecular docking, molecular dynamics simulation, MM-PBSA and per-residue energy decomposition analysis, we examined the specific interactions of TAP and PCF with three probable binding sites of SOD1, namely, dimeric interface cavity, W32 and, UMP binding sites. Results suggest that the binding of TAP at W32 and at UMP sites are least probable due to absence of any favorable interaction. The binding of TAP to dimeric cavity is also unstable due to strong unfavorable interactions. In case of PCF, binding at the UMP site is least probable while binding at dimeric cavity is accompanied by unfavorable interactions. PCF, however, exhibits stable binding with the W32 binding site of SOD1 by stabilizing the solvent accessible hydrophobic residues, which otherwise would have acted as contact points for aggregation. Thus the results imply that compound PCF functions as an inhibitior of SOD1 misfolding/aggregation through direct interaction with the protein SOD1 at the W32 binding site. However, TAP is likely to act as an inhibitor through a different mechanism rather than direct interaction with the protein SOD1. These results apart from reinforcing previous experimental findings, shed light on the probable mechanism of action of the proposed drug candidates.
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