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作为CYP121A1抑制剂的咪唑和三唑吡唑的设计与合成

Design and Synthesis of Imidazole and Triazole Pyrazoles as CYP121A1 Inhibitors.

作者信息

Kishk Safaa M, McLean Kirsty J, Sood Sakshi, Smith Darren, Evans Jack W D, Helal Mohamed A, Gomaa Mohamed S, Salama Ismail, Mostafa Samia M, de Carvalho Luiz Pedro S, Levy Colin W, Munro Andrew W, Simons Claire

机构信息

School of Pharmacy & Pharmaceutical Sciences Cardiff University King Edward VII Avenue Cardiff CF10 3NB U.K.

Medicinal Chemistry Department, Faculty of Pharmacy Suez Canal University Ismailia Egypt.

出版信息

ChemistryOpen. 2019 Jul 23;8(7):995-1011. doi: 10.1002/open.201900227. eCollection 2019 Jul.

DOI:10.1002/open.201900227
PMID:31367508
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6646865/
Abstract

The emergence of untreatable drug-resistant strains of is a major public health problem worldwide, and the identification of new efficient treatments is urgently needed. cytochrome P450 CYP121A1 is a promising drug target for the treatment of tuberculosis owing to its essential role in mycobacterial growth. Using a rational approach, which includes molecular modelling studies, three series of azole pyrazole derivatives were designed through two synthetic pathways. The synthesized compounds were biologically evaluated for their inhibitory activity towards and their protein binding affinity ( ). Series 3 biarylpyrazole imidazole derivatives were the most effective with the isobutyl () and -butyl () compounds displaying optimal activity (MIC 1.562 μg/mL, 0.22 μM () and 4.81 μM ()). The spectroscopic data showed that all the synthesised compounds produced a type II red shift of the heme Soret band indicating either direct binding to heme iron or (where less extensive Soret shifts are observed) putative indirect binding via an interstitial water molecule. Evaluation of biological and physicochemical properties identified the following as requirements for activity: LogP >4, H-bond acceptors/H-bond donors 4/0, number of rotatable bonds 5-6, molecular volume >340 Å, topological polar surface area <40 Å.

摘要

出现无法治疗的耐药菌株是全球主要的公共卫生问题,因此迫切需要鉴定新的有效治疗方法。细胞色素P450 CYP121A1因其在分枝杆菌生长中的关键作用,是治疗结核病的一个有前景的药物靶点。采用包括分子建模研究在内的合理方法,通过两条合成途径设计了三个系列的唑吡唑衍生物。对合成的化合物进行了生物学评估,以检测它们对[具体对象未明确]的抑制活性及其蛋白质结合亲和力([具体内容未明确])。系列3联芳基吡唑咪唑衍生物最为有效,异丁基([具体内容未明确])和叔丁基([具体内容未明确])化合物表现出最佳活性(最低抑菌浓度为1.562 μg/mL,[具体结合亲和力数值未明确]分别为0.22 μM([具体内容未明确])和4.81 μM([具体内容未明确]))。光谱数据表明,所有合成化合物均使血红素索雷特带产生II型红移,这表明要么直接与血红素铁结合,要么(在观察到较小索雷特位移的情况下)通过间隙水分子进行假定的间接结合。对生物学和物理化学性质的评估确定了以下活性要求:脂水分配系数对数>4,氢键受体/氢键供体为4/0,可旋转键数为5 - 6,分子体积>340 Å,拓扑极性表面积<40 Å。

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