Exploring molecular interactions and ADMET profiles of novel MAO-B inhibitors: toward effective therapeutic strategies for neurodegenerative disorders

IF 3.4 Q2 PHARMACOLOGY & PHARMACY
Amir Raza, Jitendra Chaudhary, Azmat Ali Khan, Mahaveer Singh, Deepak Kumar, Abdul Malik, Pankaj Wadhwa
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引用次数: 0

Abstract

Background

Neurodegenerative disorders (NDs), primarily affecting the elderly, are marked by complex pathophysiological processes and are projected to become the second leading cause of death. Parkinson’s disease (PD), one of the most common NDs, is characterized by motor impairments due to reduced dopamine levels in the substantia nigra (SN), a crucial midbrain region involved in motor control and reward mechanisms. PD also impacts cognitive functions, potentially leading to depression and sleep disturbances. Recent research highlights the importance of MAO-B inhibitors in PD management, as these enzymes play a critical role in regulating neurotransmitter levels by catalyzing the oxidative deamination of intracellular amines and monoamine neurotransmitters.

Result

Computational virtual screening of several quinoline-based ligands against the target protein MAO-B (PDB ID: 1OJA) was performed using molecular docking simulation and ADMET studies to identify promising inhibitors for neurodegenerative disease treatment. The most active hit, Compound PA001, exhibited a MolDock score of − 207.76 kcal/mol. Subsequent investigation of 6-methoxy-2-(4-phenylpiperazin-1-yl)quinoline (Compound PA001) using molecular dynamics (MD) simulations with GROMACS revealed potent inhibition and significant interactions at key active site residues. MD simulations confirmed the stability of the Compound PA001-MAO-B complex under physiological conditions. Additionally, ADMET analysis demonstrated that Compound PA001 possesses favorable drug-like properties, including absorption, distribution, metabolism, excretion, and toxicity profiles. These findings underscore 6-methoxy-2-(4-phenylpiperazin-1-yl)quinoline (Compound PA001) as a promising candidate for developing new MAO-B inhibitors to treat neurodegenerative diseases.

Conclusion

The research highlighted 6-methoxy-2-(4-phenylpiperazin-1-yl)quinoline (Compound PA001) as a promising MAO-B inhibitor, exhibiting strong binding affinity, stability, and desirable drug-like characteristics for the treatment of neurodegenerative diseases. Among the top ten molecules, Compound PA001 was selected for molecular dynamics (MD) simulation using GROMACS. The compound showed potent inhibition, significant interactions with key active site residues, and stable complex formation under physiological conditions. ADMET analysis further confirmed its favorable pharmacokinetic profile.

探索新型 MAO-B 抑制剂的分子相互作用和 ADMET 特征:迈向神经退行性疾病的有效治疗策略
背景神经退行性疾病(NDs)主要影响老年人,具有复杂的病理生理过程,预计将成为第二大死亡原因。帕金森病(Parkinson's disease,PD)是最常见的神经退行性疾病之一,其特征是由于黑质(substantia nigra,SN)中多巴胺水平降低导致的运动障碍。脊髓灰质炎还影响认知功能,可能导致抑郁和睡眠障碍。最近的研究强调了MAO-B抑制剂在帕金森病治疗中的重要性,因为这些酶通过催化细胞内胺和单胺神经递质的氧化脱氨作用,在调节神经递质水平方面发挥着关键作用。结果利用分子对接模拟和ADMET研究对几种喹啉基配体针对靶蛋白MAO-B(PDB ID:1OJA)进行了计算虚拟筛选,以确定有希望用于神经退行性疾病治疗的抑制剂。活性最高的化合物 PA001 的 MolDock 得分为 - 207.76 kcal/mol。随后,利用 GROMACS 进行分子动力学(MD)模拟,对 6-甲氧基-2-(4-苯基哌嗪-1-基)喹啉(化合物 PA001)进行了研究,发现其具有强效抑制作用,并且在关键活性位点残基上存在显著的相互作用。MD 模拟证实了化合物 PA001-MAO-B 复合物在生理条件下的稳定性。此外,ADMET 分析表明,化合物 PA001 具有良好的类药物特性,包括吸收、分布、代谢、排泄和毒性特征。这些发现强调了 6-甲氧基-2-(4-苯基哌嗪-1-基)喹啉(化合物 PA001)是开发治疗神经退行性疾病的新型 MAO-B 抑制剂的理想候选化合物。在前十个分子中,化合物 PA001 被选中使用 GROMACS 进行分子动力学(MD)模拟。在生理条件下,该化合物显示出强效抑制作用、与关键活性位点残基的显著相互作用以及稳定的复合物形成。ADMET 分析进一步证实了其良好的药代动力学特征。
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来源期刊
自引率
0.00%
发文量
44
审稿时长
23 weeks
期刊介绍: Future Journal of Pharmaceutical Sciences (FJPS) is the official journal of the Future University in Egypt. It is a peer-reviewed, open access journal which publishes original research articles, review articles and case studies on all aspects of pharmaceutical sciences and technologies, pharmacy practice and related clinical aspects, and pharmacy education. The journal publishes articles covering developments in drug absorption and metabolism, pharmacokinetics and dynamics, drug delivery systems, drug targeting and nano-technology. It also covers development of new systems, methods and techniques in pharmacy education and practice. The scope of the journal also extends to cover advancements in toxicology, cell and molecular biology, biomedical research, clinical and pharmaceutical microbiology, pharmaceutical biotechnology, medicinal chemistry, phytochemistry and nutraceuticals.
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