Targeting decaprenylphosphoryl-β-D-ribose 2'-epimerase for Innovative Drug Development Against Mycobacterium Tuberculosis Drug-Resistant Strains.

IF 2.3 Q3 BIOCHEMICAL RESEARCH METHODS Bioinformatics and Biology Insights Pub Date : 2024-05-28 eCollection Date: 2024-01-01 DOI:10.1177/11779322241257039
Ghyzlane El Haddoumi, Mariam Mansouri, Jouhaina Kourou, Lahcen Belyamani, Azeddine Ibrahimi, Ilham Kandoussi
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Abstract

Tuberculosis (TB) remains a global health challenge with the emergence of drug-resistant Mycobacterium tuberculosis variants, necessitating innovative drug molecules. One potential target is the cell wall synthesis enzyme decaprenylphosphoryl-β-D-ribose 2'-epimerase (DprE1), crucial for virulence and survival. This study employed virtual screening of 111 Protein Data Bank (PDB) database molecules known for their inhibitory biological activity against DprE1 with known IC50 values. Six compounds, PubChem ID: 390820, 86287492, 155294899, 155522922, 162651615, and 162665075, exhibited promising attributes as drug candidates and validated against clinical trial inhibitors BTZ043, TBA-7371, PBTZ169, and OPC-167832. Concurrently, this research focused on DprE1 mutation effects using molecular dynamic simulations. Among the 10 mutations tested, C387N significantly influenced protein behavior, leading to structural alterations observed through root-mean-square deviation (RMSD), root-mean-square fluctuation (RMSF), radius of gyration (Rg), and solvent-accessible surface area (SASA) analysis. Ligand 2 (ID: 390820) emerged as a promising candidate through ligand-based pharmacophore analysis, displaying enhanced binding compared with reference inhibitors. Molecular dynamic simulations highlighted ligand 2's interaction with the C387N mutation, reducing fluctuations, augmenting hydrogen bonding, and influencing solvent accessibility. These collective findings emphasize ligand 2's efficacy, particularly against severe mutations, in enhancing protein-ligand complex stability. Integrated computational and pharmacophore methodologies offer valuable insights into drug candidates and their interactions within intricate protein environments. This research lays a strategic foundation for targeted interventions against drug-resistant TB, highlighting ligand 2's potential for advanced drug development strategies.

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以十烯丙基磷酰-β-D-核糖 2'-epimerase 为靶点,开发抗结核分枝杆菌耐药菌株的创新药物。
随着耐药性结核分枝杆菌变种的出现,结核病(TB)仍然是一项全球健康挑战,需要创新的药物分子。一个潜在的靶点是细胞壁合成酶脱羧基磷酰-β-D-核糖 2'-epimerase (DprE1),它对病毒的毒性和存活至关重要。本研究采用虚拟筛选法筛选了 111 个蛋白质数据库(PDB)中已知具有抑制 DprE1 生物活性且 IC50 值已知的分子。六种化合物(PubChem ID:390820、86287492、155294899、155522922、162651615 和 162665075)显示出作为候选药物的前景,并与临床试验抑制剂 BTZ043、TBA-7371、PBTZ169 和 OPC-167832 进行了验证。同时,这项研究还利用分子动力学模拟重点研究了 DprE1 突变的影响。在测试的 10 个突变中,C387N 显著影响了蛋白质的行为,通过均方根偏差 (RMSD)、均方根波动 (RMSF)、回旋半径 (Rg) 和可溶解表面积 (SASA) 分析观察到了结构的改变。通过基于配体的药效分析,配体 2(ID:390820)成为有希望的候选配体,与参考抑制剂相比,它显示出更强的结合力。分子动力学模拟强调了配体 2 与 C387N 突变的相互作用,减少了波动,增强了氢键作用,并影响了溶剂的可及性。这些研究结果共同强调了配体 2 在增强蛋白质-配体复合物稳定性方面的功效,尤其是针对严重突变的功效。综合计算和药效学方法为候选药物及其在错综复杂的蛋白质环境中的相互作用提供了宝贵的见解。这项研究为针对耐药性结核病的靶向干预奠定了战略基础,凸显了配体 2 在先进药物开发战略中的潜力。
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来源期刊
Bioinformatics and Biology Insights
Bioinformatics and Biology Insights BIOCHEMICAL RESEARCH METHODS-
CiteScore
6.80
自引率
1.70%
发文量
36
审稿时长
8 weeks
期刊介绍: Bioinformatics and Biology Insights is an open access, peer-reviewed journal that considers articles on bioinformatics methods and their applications which must pertain to biological insights. All papers should be easily amenable to biologists and as such help bridge the gap between theories and applications.
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