Zolfaghari Narges
National institute of genetic engineering and biotechnology, Tehran, Iran.
Bioinformation. 2017 May 31;13(5):140-143. doi: 10.6026/97320630013140. eCollection 2017.
Tyrosinemia type I is the result of genetic disorder in fomaryl acetoacetase gene that leads to 4-fumaryl acetoacetate accumulation. The current treatment for tyrosinemia type I is nitisinone that inhibits 4-hydroxyphenyl pyruvic dioxygenase in competitive manner. In the present study, we have designed two theoretical chemicals, which could inhibit the direct enzyme responsible for fumarylacetoacetate formation. Subset 2_p.0.5 from Zinc database was screened by PyRx software using a Lamarckian genetic algorithm as the scoring function for docking. Top nine successive hits were selected for further pharmacological analysis and finally the new designed ligands RD6-2 (3Z)- 1,3-Butadiene-1,1,2,4-tetrol and RD-7-1 ((Z)-3-[4-Hydroxy-1-(hydroxymethyl)cyclohexyl]-2-propene-1,2-diol could pass PhysChem, FAFDrugs and AdmetSAR filter. The designed ligands were non-substrate and non-inhibitor of CYP450 and nontoxic in AMES test. LD50 of RD-6-2 was 793mg/kg with the toxicity class of four and The LD50 of RD-7-1 was calculated as 5000mg/kg within the toxicity class of five. The designed molecules are introduced as the new theoretical small molecules, which can theoretically inhibit 4- maleylacetoacetate isomerase in a competitive manner.
I型酪氨酸血症是由富马酰乙酰乙酸酶基因的遗传紊乱导致4-富马酰乙酰乙酸积累引起的。目前I型酪氨酸血症的治疗方法是尼替西农,它以竞争性方式抑制4-羟基苯丙酮酸双加氧酶。在本研究中,我们设计了两种理论化学物质,它们可以抑制负责富马酰乙酰乙酸形成的直接酶。使用拉马克遗传算法作为对接评分函数,通过PyRx软件从锌数据库中筛选出子集2_p.0.5。选择前九个连续命中结果进行进一步的药理学分析,最终新设计的配体RD6-2(3Z)-1,3-丁二烯-1,1,2,4-四醇和RD-7-1((Z)-3-[4-羟基-1-(羟甲基)环己基]-2-丙烯-1,2-二醇可以通过物理化学、FAFDrugs和AdmetSAR筛选。设计的配体不是CYP450的底物和抑制剂,在AMES试验中无毒。RD-6-2的半数致死量为793mg/kg,毒性等级为四级,RD-7-1的半数致死量计算为5000mg/kg,毒性等级为五级。所设计的分子作为新的理论小分子被引入,理论上它们可以竞争性抑制4-马来酰乙酰乙酸异构酶。
