与 U1-SCTRX-lg1a 生物活性相关的受体的硅学研究:从高脚罗索毒液中分离出的一种抗菌肽。

In silico pharmacology Pub Date : 2024-03-10 eCollection Date: 2024-01-01 DOI:10.1007/s40203-024-00190-8
André Souza de Oliveira, Elias Jorge Muniz Seif, Pedro Ismael da Silva Junior
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引用次数: 0

摘要

抗生素耐药性病原体的出现损害了人类健康。U1-SCTRX-lg1a 是一种从高脚蛛蛛毒中提取的磷脂酶 D 中分离出来的多肽,对革兰氏阴性细菌具有抗菌活性(1.15 至 4.6 μM)。本研究的目的是利用硅学生物信息学工具,提出与 U1-SCTRX-lg1a 抗菌活性相关的潜在受体。研究人员使用 PharmMapper 服务器搜索 U1-SCRTX-lg1a 的潜在靶点。使用 PatchDock 软件在 U1-SCRTX-lg1a 和受体之间进行分子对接。使用 PDBSum 服务器预测了每种受体的配体位点。Chimera 1.6 软件仅用于对最佳对接得分的受体进行分子动力学模拟。此外,还使用 AutoDock Vina 软件比较了 U1-SCRTX-lg1a 和本地配体的相互作用。最后,将预测的相互作用与之前文献中描述的配体位点进行了比较。通过对 U1-SCRTX-lg1a 的生物勘测,发现了三百(300)个不同的靶标(表 S1),其中四十九(49)个是源自革兰氏阴性微生物的细胞内蛋白质(表 S2)。对接结果显示了得分(10702 到 6066)、面积(1498.70 到 728.40)和 ACEs(417.90 到 -152.8)值。其中,NAD + NH3 依赖性合成酶(PDB ID:1wxi)在 PharmMapper 服务器上的对接得分为 9742,面积为 1223.6,ACE 为 38.38,归一化拟合得分为 8812。配体与受体的相互作用分析表明,从棕色蜘蛛毒液中提取的多肽可与残基 SER48 和 THR160 发生相互作用。此外,C 端(- 7.0 分)与受体的亲和力大于 N 端(- 7.7 分)。分子动力学测定显示,蛋白质复合物的自由能值为-214,890.21 kJ/mol,而刚性对接时的自由能值为-29.952.8,这表明经过分子动力学模拟后,复合物的能值比之前的状态更有利。对受体的硅学生物勘测表明,U1-SCRTX-lg1a 可能会干扰革兰氏阴性菌大肠杆菌中 NAD + 的产生,从而改变微生物的平衡并影响生长:在线版本包含补充材料,可查阅 10.1007/s40203-024-00190-8。
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In silico prospection of receptors associated with the biological activity of U1-SCTRX-lg1a: an antimicrobial peptide isolated from the venom of Loxosceles gaucho.

The emergence of antibiotic-resistant pathogens generates impairment to human health. U1-SCTRX-lg1a is a peptide isolated from a phospholipase D extracted from the spider venom of Loxosceles gaucho with antimicrobial activity against Gram-negative bacteria (between 1.15 and 4.6 μM). The aim of this study was to suggest potential receptors associated with the antimicrobial activity of U1-SCTRX-lg1a using in silico bioinformatics tools. The search for potential targets of U1-SCRTX-lg1a was performed using the PharmMapper server. Molecular docking between U1-SCRTX-lg1a and the receptor was performed using PatchDock software. The prediction of ligand sites for each receptor was conducted using the PDBSum server. Chimera 1.6 software was used to perform molecular dynamics simulations only for the best dock score receptor. In addition, U1-SCRTX-lg1a and native ligand interactions were compared using AutoDock Vina software. Finally, predicted interactions were compared with the ligand site previously described in the literature. The bioprospecting of U1-SCRTX-lg1a resulted in the identification of three hundred (300) diverse targets (Table S1), forty-nine (49) of which were intracellular proteins originating from Gram-negative microorganisms (Table S2). Docking results indicate Scores (10,702 to 6066), Areas (1498.70 to 728.40) and ACEs (417.90 to - 152.8) values. Among these, NAD + NH3-dependent synthetase (PDB ID: 1wxi) showed a dock score of 9742, area of 1223.6 and ACE of 38.38 in addition to presenting a Normalized Fit score of 8812 on PharmMapper server. Analysis of the interaction of ligands and receptors suggests that the peptide derived from brown spider venom can interact with residues SER48 and THR160. Furthermore, the C terminus (- 7.0 score) has greater affinity for the receptor than the N terminus (- 7.7 score). The molecular dynamics assay shown that free energy value for the protein complex of - 214,890.21 kJ/mol, whereas with rigid docking, this value was - 29.952.8 sugerindo that after the molecular dynamics simulation, the complex exhibits a more favorable energy value compared to the previous state. The in silico bioprospecting of receptors suggests that U1-SCRTX-lg1a may interfere with NAD + production in Escherichia coli, a Gram-negative bacterium, altering the homeostasis of the microorganism and impairing growth.

Supplementary information: The online version contains supplementary material available at 10.1007/s40203-024-00190-8.

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