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基于喹唑啉酮的罗丹宁-3-乙酸作为有效的醛糖还原酶抑制剂:合成、功能评估及分子模拟研究

Quinazolinone-based rhodanine-3-acetic acids as potent aldose reductase inhibitors: Synthesis, functional evaluation and molecular modeling study.

作者信息

El-Sayed Sherihan, Metwally Kamel, El-Shanawani Abdalla A, Abdel-Aziz Lobna M, El-Rashedy Ahmed A, Soliman Mahmoud E S, Quattrini Luca, Coviello Vito, la Motta Concettina

机构信息

Department of Medicinal Chemistry, Faculty of Pharmacy, Zagazig University, Zagazig, Egypt.

Department of Medicinal Chemistry, Faculty of Pharmacy, Zagazig University, Zagazig, Egypt.

出版信息

Bioorg Med Chem Lett. 2017 Oct 15;27(20):4760-4764. doi: 10.1016/j.bmcl.2017.08.050. Epub 2017 Aug 24.

DOI:10.1016/j.bmcl.2017.08.050
PMID:28935265
Abstract

A series of quinazolinone-based rhodanine-3-acetic acids was synthesized and tested for in vitro aldose reductase inhibitory activity. All the target compounds displayed nanomolar activity against the target enzyme. Compounds 3a, 3b, and 3e exhibited almost 3-fold higher activity as compared to the only marketed reference drug epalrestat. Structure-activity relationship studies indicated that bulky substituents at the 3-phenyl ring of the quinazolinone moiety are generally not tolerated in the active site of the enzyme. Insertion of a methoxy group on the central benzylidene ring was found to have a variable effect on ALR-2 activity depending on the nature of peripheral quinazolinone ring substituents. Removal of the acetic acid moiety led to inactive or weakly active target compounds. Docking and molecular dynamic simulations of the most active rhodanine-3-acetic acid derivatives were also carried out, to provide the basis for further structure-guided design of novel inhibitors.

摘要

合成了一系列基于喹唑啉酮的罗丹宁-3-乙酸,并对其进行体外醛糖还原酶抑制活性测试。所有目标化合物对目标酶均表现出纳摩尔活性。与唯一上市的参比药物依帕司他相比,化合物3a、3b和3e的活性几乎高3倍。构效关系研究表明,喹唑啉酮部分3-苯环上的庞大取代基通常不能被酶的活性位点所耐受。发现中心亚苄基环上甲氧基的插入对醛糖还原酶-2(ALR-2)活性有不同影响,这取决于外周喹唑啉酮环取代基的性质。去除乙酸部分会导致目标化合物无活性或活性较弱。还对活性最高的罗丹宁-3-乙酸衍生物进行了对接和分子动力学模拟,为新型抑制剂的进一步结构导向设计提供依据。

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