Identification of immucillin analogue natural compounds to inhibit Helicobacter pylori MTAN through high throughput virtual screening and molecular dynamics simulation.

In Silico Pharmacology Pub Date : 2021-03-11 eCollection Date: 2021-01-01 DOI:10.1007/s40203-021-00081-2

Divya S Raj, Chidhambara Priya Dharshini Kottaisamy, Waheetha Hopper, Umamaheswari Sankaran

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引用次数: 4

Abstract

Abstract: One in every two humans is having Helicobacter pylori (H. pylori) in stomach causing gastric ulcer. Emergence of several drugs in eliminating H. pylori has paved way for emergence of multidrug resistance in them. This resistance is thriving and thereby necessitating the need of a potent drug. Identifying a potential target for medication is crucial. Bacterial 5'-methylthioadenosine/S-enosyl homocysteine nucleosidase (MTAN) is a multifunctional enzyme that controls seven essential metabolic pathways. It functions as a catalyst in the hydrolysis of the N-ribosidic bond of adenosine-based metabolites: S-adenosylhomocysteine (SAH), 5'-methylthioadenosine (MTA), 5'-deoxyadenosine (5'-DOA), and 6-amino-6-deoxyfutalosine. H. pylori unlike other bacteria and humans utilises an alternative pathway for menaquinone synthesis. It utilises Futosiline pathway for menaquinone synthesis which are obligatory component in electron transport pathway. Therefore, the enzymes functioning in this pathway represent them-self as a point of attack for new medications. We targeted MTAN protein of H. pylori to find out a potent natural hit to inhibit its growth. A comparative analysis was made with potent H. pylori MTAN (HpMTAN) known inhibitor, 5'-butylthio-DADMe-Immucillin-A (BuT-DADMe-ImmA) and ZINC natural subset database. Optimized ligands from the ZINC natural database were virtually screened using ligand based pharmacophore hypothesis to obtain the most efficient and potent inhibitors for HpMTAN. The screened leads were evaluated for their therapeutic likeness. Furthermore, the ligands that passed the test were subjected for MM-GBSA with MTAN to reveal the essential features that contributes selectivity. The results showed that Van der Waals contributions play a central role in determining the selectivity of MTAN. Molecular dynamics (MD) studies were carried out for 100 ns to assess the stability of ligands in the active site. MD analysis showed that binding of ZINC00490333 with MTAN is stable compared to reference inhibitor molecule BuT-DADMe-ImmA. Among the natural inhibitors screened after various docking procedures ZINC00490333 has highest binding score for HpMTAN (- 13.987). The ZINC inhibitor was successful in reproducing the BuT-DADMe-ImmA interactions with HpMTAN. Hence we suggest that ZINC00490333 compound may represent as a good lead in designing novel potent inhibitors of HpMTAN. This in silico approach indicates the potential of this molecule for advancing a further step in gastric ulcer treatment.

Graphic abstract:

Supplementary information: The online version contains supplementary material available at 10.1007/s40203-021-00081-2.

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通过高通量虚拟筛选和分子动力学模拟鉴定抑制幽门螺杆菌MTAN的免疫球蛋白类似天然化合物。

摘要:每两个人中就有一个人的胃中有幽门螺杆菌(h.p ylori)，导致胃溃疡。在消灭幽门螺杆菌中出现的几种药物为它们出现多药耐药铺平了道路。这种耐药性正在增强，因此需要一种强效药物。确定药物治疗的潜在目标至关重要。细菌5′-甲基硫代腺苷/ s -烯丙基同型半胱氨酸核苷酶(MTAN)是一种控制七种重要代谢途径的多功能酶。它在以腺苷为基础的代谢产物:s -腺苷同型半胱氨酸(SAH)、5'-甲基硫腺苷(MTA)、5'-脱氧腺苷(5'-DOA)和6-氨基-6-脱氧futalosine的n -核糖体键的水解中起催化剂的作用。与其他细菌和人类不同，幽门螺旋杆菌利用另一种途径合成甲基萘醌。它利用福托硅碱途径合成电子传递途径中的必需组分甲基萘醌。因此，在这一途径中起作用的酶代表了它们自己作为新药物的攻击点。我们以幽门螺杆菌的MTAN蛋白为目标，寻找一种有效的自然打击来抑制其生长。与已知有效的HpMTAN抑制剂5′-丁基硫代- dadme - immucillin -A (BuT-DADMe-ImmA)和锌天然亚群数据库进行比较分析。利用基于配体的药效团假说对锌天然数据库中优化的配体进行虚拟筛选，以获得最有效的HpMTAN抑制剂。筛选的导联评估其治疗相似性。此外，将通过测试的配体与MTAN一起进行MM-GBSA，以揭示有助于选择性的基本特征。结果表明，范德华贡献在确定MTAN的选择性中起着核心作用。分子动力学(MD)研究进行了100 ns，以评估配体在活性位点的稳定性。MD分析表明，与参考抑制剂分子BuT-DADMe-ImmA相比，ZINC00490333与MTAN的结合稳定。在经过各种对接程序筛选的天然抑制剂中，ZINC00490333对HpMTAN的结合评分最高(- 13.987)。锌抑制剂成功地再现了BuT-DADMe-ImmA与HpMTAN的相互作用。因此，我们认为ZINC00490333化合物可能是设计新型HpMTAN有效抑制剂的良好先导。这种在计算机上的方法表明了这种分子在胃溃疡治疗中进一步发展的潜力。图片摘要:补充资料:在线版本包含补充资料，网址为10.1007/s40203-021-00081-2。

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In Silico Pharmacology

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