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鉴定与鸟嘌呤脱氨酶(cypin)结合亲和力高于鸟嘌呤的小分子化合物。

Identification of small molecule compounds with higher binding affinity to guanine deaminase (cypin) than guanine.

机构信息

Department of Cell Biology and Neuroscience, Rutgers, The State University of New Jersey, 604 Allison Road, Piscataway, NJ 08854-8082, USA.

出版信息

Bioorg Med Chem. 2010 Sep 15;18(18):6748-55. doi: 10.1016/j.bmc.2010.07.054. Epub 2010 Jul 27.

Abstract

Guanine deaminase (GDA; cypin) is an important metalloenzyme that processes the first step in purine catabolism, converting guanine to xanthine by hydrolytic deamination. In higher eukaryotes, GDA also plays an important role in the development of neuronal morphology by regulating dendritic arborization. In addition to its role in the maturing brain, GDA is thought to be involved in proper liver function since increased levels of GDA activity have been correlated with liver disease and transplant rejection. Although mammalian GDA is an attractive and potential drug target for treatment of both liver diseases and cognitive disorders, prospective novel inhibitors and/or activators of this enzyme have not been actively pursued. In this study, we employed the combination of protein structure analysis and experimental kinetic studies to seek novel potential ligands for human guanine deaminase. Using virtual screening and biochemical analysis, we identified common small molecule compounds that demonstrate a higher binding affinity to GDA than does guanine. In vitro analysis demonstrates that these compounds inhibit guanine deamination, and more surprisingly, affect GDA (cypin)-mediated microtubule assembly. The results in this study provide evidence that an in silico drug discovery strategy coupled with in vitro validation assays can be successfully implemented to discover compounds that may possess therapeutic value for the treatment of diseases and disorders where GDA activity is abnormal.

摘要

鸟嘌呤脱氨酶 (GDA; cypin) 是一种重要的金属酶,可催化嘌呤分解代谢的第一步,通过水解脱氨将鸟嘌呤转化为黄嘌呤。在高等真核生物中,GDA 还通过调节树突分支来发挥重要作用,从而影响神经元形态的发育。除了在成熟大脑中的作用外,GDA 还被认为与肝脏功能有关,因为 GDA 活性的增加与肝脏疾病和移植排斥反应有关。尽管哺乳动物 GDA 是治疗肝脏疾病和认知障碍的有吸引力的潜在药物靶点,但尚未积极寻找该酶的新型潜在抑制剂和/或激活剂。在这项研究中,我们结合蛋白质结构分析和实验动力学研究,寻找人类鸟嘌呤脱氨酶的新型潜在配体。通过虚拟筛选和生化分析,我们确定了常见的小分子化合物,它们与 GDA 的结合亲和力高于鸟嘌呤。体外分析表明,这些化合物抑制鸟嘌呤脱氨,更令人惊讶的是,它们还影响 GDA(cypin)介导的微管组装。本研究结果表明,计算机药物发现策略与体外验证测定相结合,可以成功用于发现可能具有治疗价值的化合物,以治疗 GDA 活性异常的疾病和障碍。

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