合成、分子模拟及一些哒嗪酮衍生物作为选择性人单胺氧化酶-B 抑制剂的生物活性。

Synthesis, molecular modelling and biological activity of some pyridazinone derivatives as selective human monoamine oxidase-B inhibitors.

机构信息

Department of Pharmaceutical Chemistry, Faculty of Pharmacy, Inonu University, 44280, Malatya, Turkey.

Department of Anesthesiology, Vocational School of Health Services, Fırat University, 23119, Elazığ, Turkey.

出版信息

Pharmacol Rep. 2020 Jun;72(3):692-704. doi: 10.1007/s43440-020-00070-w. Epub 2020 Mar 6.

DOI:10.1007/s43440-020-00070-w

PMID:32144745

Abstract

BACKGROUND

Since brain neurotransmitter levels are associated with the pathology of various neurodegenerative diseases like Parkinson and Alzheimer, monoamineoxidase (MAO) plays a critical role in balancing these neurotransmitters in the brain. MAO isoforms appear as promising drug targets for the development of central nervous system agents. Pyridazinones have a broad array of biological activities. Here, six pyridazinone derivatives were synthesized and their human monoamine oxidase inhibitory activities were evaluated by molecular docking studies, in silico ADME prediction and in vitro biological screening tests.

METHODS

The compounds were synthesized by the reaction of different piperazine derivatives with 3 (2H)-pyridazinone ring and MAO-inhibitory effects were investigated. Docking studies were conducted with Maestro11.8 software.

RESULTS

Most of the synthesized compounds inhibited hMAO-B selectively except compound 4f. Compounds 4a-4e inhibited hMAO-B selectively and reversibly in a competitive mode. Compound 4b was found as the most potent (k = 0.022 ± 0.001 µM) and selective (SI (Ki ) = 206.82) hMAO-B inhibitor in this series. The results of docking studies were found to be consistent with the results of the in vivo activity studies. Compounds 4a-4e were found to be non-toxic to HepG2 cells at 25 μM concentration. In silico calculations of ADME properties indicated that the compounds have good pharmacokinetic profiles.

CONCLUSION

It was concluded that 4b is possibly recommended as a promising nominee for the design and development of new pyridazinones which can be used in the treatment of neurological diseases.

摘要

背景

由于脑神经递质水平与帕金森和阿尔茨海默等各种神经退行性疾病的病理学有关，因此单胺氧化酶（MAO）在平衡大脑中的这些神经递质方面起着关键作用。MAO 同工酶似乎是开发中枢神经系统药物的有希望的药物靶点。哒嗪酮具有广泛的生物学活性。在这里，合成了六个哒嗪酮衍生物，并通过分子对接研究、计算机 ADME 预测和体外生物筛选试验评估了它们对人单胺氧化酶的抑制活性。

方法

通过不同哌嗪衍生物与 3（2H）-哒嗪酮环的反应合成了这些化合物，并研究了 MAO 抑制作用。对接研究使用 Maestro11.8 软件进行。

结果

除了化合物 4f 之外，大多数合成的化合物均选择性抑制 hMAO-B。化合物 4a-4e 以竞争性方式选择性和可逆地抑制 hMAO-B。在该系列中，化合物 4b 被发现是最有效的（k=0.022±0.001μM）和选择性（SI（Ki）=206.82）hMAO-B 抑制剂。对接研究的结果与体内活性研究的结果一致。在 25μM 浓度下，化合物 4a-4e 对 HepG2 细胞没有毒性。ADME 性质的计算表明，这些化合物具有良好的药代动力学特性。

结论

可以得出结论，化合物 4b 可能被推荐为设计和开发新哒嗪酮的有前途的候选物，可用于治疗神经退行性疾病。

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合成、分子模拟及一些哒嗪酮衍生物作为选择性人单胺氧化酶-B 抑制剂的生物活性。

Synthesis, molecular modelling and biological activity of some pyridazinone derivatives as selective human monoamine oxidase-B inhibitors.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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