Yan X, Hollis T, Svinth M, Day P, Monzingo A F, Milne G W, Robertus J D
Department of Chemistry and Biochemistry, University of Texas, Austin 78712, USA.
J Mol Biol. 1997 Mar 14;266(5):1043-9. doi: 10.1006/jmbi.1996.0865.
Ricin is a potent cytotoxin which has been used widely in the construction of therapeutic agents such as immunotoxins. Recently it has been used by governments and underground groups as a poison. There is interest in identifying and designing effective inhibitors of the ricin A chain (RTA). In this study computer-assisted searches indicated that pterins might bind in the RTA active site which normally recognizes a specific adenine base on rRNA. Kinetic assays showed that pteroic acid could inhibit RTA activity with an apparent Ki of 0.6 mM. A 2.3 A crystal structure of the complex revealed the mode of binding. The pterin ring displaces Tyr80 and binds in the adenine pocket making specific hydrogen bonds to active site residues. The benzoate moiety of pteroic acid binds on the opposite side of Tyr80 making van der Waals contact with the Tyr ring and forming a hydrogen bond with Asn78. Neopterin, a propane triol derivative of pterin, also binds to RTA as revealed by the X-ray structure of its complex with RTA. Neither pterin-6-carboxylic acid nor folic acid bind to the crystal or act as inhibitors. The models observed suggest alterations to the pterin moiety which may produce more potent and specific RTA inhibitors.
蓖麻毒素是一种强效细胞毒素,已广泛应用于免疫毒素等治疗药物的构建。最近,它被政府和地下组织用作毒药。人们对鉴定和设计有效的蓖麻毒素A链(RTA)抑制剂很感兴趣。在这项研究中,计算机辅助搜索表明蝶呤可能结合在RTA的活性位点,该位点通常识别rRNA上的特定腺嘌呤碱基。动力学分析表明,蝶酸可以抑制RTA活性,表观抑制常数(Ki)为0.6 mM。复合物的2.3埃晶体结构揭示了其结合模式。蝶呤环取代了Tyr80,并结合在腺嘌呤口袋中,与活性位点残基形成特定的氢键。蝶酸的苯甲酸部分结合在Tyr80的另一侧,与Tyr环形成范德华接触,并与Asn78形成氢键。新蝶呤是蝶呤的丙烷三醇衍生物,其与RTA复合物的X射线结构显示它也能与RTA结合。蝶呤-6-羧酸和叶酸既不与晶体结合,也不具有抑制作用。观察到的模型表明,对蝶呤部分进行修饰可能会产生更有效、更特异的RTA抑制剂。