基于4-氨基香豆素的芳酰基硫脲作为潜在的刀豆脲酶抑制剂;合成、酶抑制动力学及对接研究
4-Aminocoumarin based Aroylthioureas as Potential Jack Bean Urease Inhibitors; Synthesis, Enzyme Inhibitory Kinetics and Docking Studies.
作者信息
Fattah Tanzeela A, Saeed Aamer, Ashraf Zaman, Abbas Qamar, Channar Pervaiz A, Larik Fayaz A, Hassan Mubashir
机构信息
Department of Chemistry, Quaid-i-Azam University, 45320, Islamabad, Pakistan.
Department of Chemistry, Allama Iqbal Open University, Islamabad 44000, Pakistan.
出版信息
Med Chem. 2020;16(2):229-243. doi: 10.2174/1573406415666190715164834.
BACKGROUND
Urease enzyme catalyzes the hydrolysis of urea into ammonia and CO2, excess ammonia causes global warming and crop reduction. Ureases are also responsible for certain human diseases such as stomach cancer, peptic ulceration, pyelonephritis, and kidney stones. New urease inhibitors are developed to get rid of such problems.
OBJECTIVE
This article describes the synthesis of a series of novel 1-aroyl-3-(2-oxo-2H-chromen-4- yl)thiourea derivatives (5a-j) as Jack bean urease inhibitors.
METHODS
Freshly prepared aryl isothiocyanates were reacted with 4-aminocoumarin in the same pot in an anhydrous medium of acetone. The structures of the title thioureas (5a-j) were ascertained by their spectroscopic data. The inhibitory effects against jack bean urease were determined.
RESULTS
It was found that compounds 5i and 5j showed excellent activity with IC50 values 0.0065 and 0.0293, µM respectively. Compound 5i bearing 4-methyl substituted phenyl ring plays a vital role in enzyme inhibitory activity. The kinetic mechanism analyzed by Lineweavere-Burk plots revealed that compound 5i inhibits the enzyme non-competitively. The Michaelis-Menten constant Km and inhibition constants Ki calculated from Lineweavere-Burk plots for compound 5i are 4.155mM and 0.00032µM, respectively. The antioxidant activity results displayed that compound 5j showed excellent radical scavenging activity. The cytotoxic effects determined against brine shrimp assay showed that all of the synthesized compounds are non-toxic to shrimp larvae. Molecular docking studies were performed against target protein (PDBID 4H9M) and it was determined that most of the synthesized compounds exhibited good binding affinity with the target protein. Molecular dynamics simulation (MDS) results revealed that compound 5i forms a stable complex with target protein showing little fluctuation.
CONCLUSIONS
Based upon our investigations, it is proposed that 5i derivative may serve as a lead structure for devising more potent urease inhibitors.
背景
脲酶催化尿素水解为氨和二氧化碳,过量的氨会导致全球变暖并使作物减产。脲酶还与某些人类疾病有关,如胃癌、消化性溃疡、肾盂肾炎和肾结石。因此开发新型脲酶抑制剂以解决这些问题。
目的
本文描述了一系列新型1-芳酰基-3-(2-氧代-2H-色烯-4-基)硫脲衍生物(5a-j)作为刀豆脲酶抑制剂的合成。
方法
将新制备的芳基异硫氰酸酯与4-氨基香豆素在丙酮无水介质中于同一反应釜中反应。通过光谱数据确定了标题硫脲(5a-j)的结构。测定了它们对刀豆脲酶的抑制作用。
结果
发现化合物5i和5j表现出优异的活性,IC50值分别为0.0065和0.0293μM。带有4-甲基取代苯环的化合物5i在酶抑制活性中起关键作用。通过Lineweavere-Burk图分析的动力学机制表明化合物5i非竞争性抑制该酶。根据化合物5i的Lineweavere-Burk图计算的米氏常数Km和抑制常数Ki分别为4.155mM和0.00032μM。抗氧化活性结果表明化合物5j表现出优异的自由基清除活性。针对卤虫的细胞毒性测定结果表明,所有合成化合物对虾幼虫均无毒。对靶蛋白(PDBID 4H9M)进行了分子对接研究,结果表明大多数合成化合物与靶蛋白表现出良好的结合亲和力。分子动力学模拟(MDS)结果表明化合物5i与靶蛋白形成稳定的复合物,波动很小。
结论
基于我们的研究,提出5i衍生物可作为设计更有效脲酶抑制剂的先导结构。
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