1,3,4 -噻二唑作为髓过氧化物酶抑制剂的分子对接研究

A. Vadivelu
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摘要

髓过氧化物酶(MPO)是一种异二聚体、阳离子和糖基化的血红素酶,在氧化应激增加的情况下释放,产生中性粒细胞氧化剂,次氯酸,具有通过氯化和/或氧化蛋白质中的巯基来修饰各种生物分子的能力,导致它们失活并促进炎症组织损伤。不同水平的次氯酸被用作处方疾病的特征标记,如动脉粥样硬化、类风湿关节炎、肺癌、免疫反应性。为了鉴定髓过氧化物酶的有效抑制剂,将22500个2,5二取代1,3,4噻二唑与髓过氧化物酶对接。蛋白质和配体的化学性质对对接过程的性能有很大影响。考虑到这一事实,由HTVS、SP和XP对GLIDE进行了关键的性能评估。通过QIKPROP计算ADME参数,通过Schrödinger的Prime/MM-GBSA模块计算蛋白质-配体结合自由能。氢键和疏水相互作用都对其配体结合和核心影响有重要贡献,通过与靶点上的主链和侧链残基显著的疏水和带电相互作用,提高了分子的亲和力。选择的有效抑制剂化合物具有最小的结合亲和力、最大的GScore和最小的FlexX能量。MPO基因结构域活性位点的氨基酸残基ASP98、ASP94、THR100和GLU 102与配体形成氢键。化合物3350-5150与血红素酶表现出较好的相互作用,有助于进一步了解其结构、可靠性和与氧化应激诱导疾病相关的生物分子活性。
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Molecular docking studies of 1,3,4 -thiadiazoles as myeloperoxidase inhibitors
Myeloperoxidase (MPO) is a heterodimeric, cationic and glycosylated haeme enzyme which gets released under increased oxidative stress producing neutrophil oxidant, hypochlorous acid having the capacity to modify various biomolecules by chlorination and/or oxidation of sulfhydryl groups in proteins causing their inactivation and promoting inflammatory tissue damage. Different levels of hypochlorus acid are used as a trait marker for prescribing the disorders e.g. atherosclerosis, rheumatoid arthritis, lung cancer, Immuno-reactivity. Mini library of 22500 2,5disubstituted 1,3,4 thiadiazoles were docked with Myeloperoxidase in order to identify the potent inhibitor against the enzyme. The chemical nature of the protein and ligands greatly influence the performance of docking process. Keeping this fact in view, critical evaluation of the performance was performed by GLIDE by HTVS, SP and XP. The ADME parameters by QIKPROP and protein-ligand binding free energies were calculated using the Prime/MM-GBSA module of Schrödinger.Both hydrogen bonding and hydrophobic interactions contributed significantly for its ligand binding and core influence the target site through prominent hydrophobic and charged interaction with the backbone and side chain residues in the target site that improves the affinity of the molecule. The compound selected as potent inhibitor is having minimum binding affinity, maximum GScore and minimum FlexX energy. The amino acids residues ASP98, ASP94, THR100 and GLU 102 in the MPO gene domain active site form hydrogen bonds with the ligand. Compounds 3350-5150 showed better interaction with haeme enzyme for further understanding of structures, reliability and Biomolecularactivityy in connection with oxidative stress induced disorders.
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