Mousumi Shyam, Abhishek Thakur, Caroline Velez, Chris Daniel, Orlando Acevedo, S. Bhakta, Venkatesan Jayaprakash
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In context, to accelerate newer EPIs with novel mode of action here we have discussed mycobactin analogues and highlighted in silico binding orientation with siderophore efflux-pump proteins MmpL4/5.3-(2-hydroxyphenyl)-5-(aryl)-pyrazoline series was investigated for whole-cell efflux-pump inhibitory activity against Mycobacterium smegmatis and Mycobacterium abscessus. Machine learning and molecular dynamics were performed to construct a MmpL4/5 complex embedded in a lipid bilayer to identify the putative binding site and to predict ligand-protein binding energetics. Furthermore, the identified HIT compound was investigated in synergistic assay with bedaquiline.Compound Il, 2-(5-(4-fluorophenyl)-4,5-dihydro-1H-pyrazol-3-yl)phenol, was identified as the most potent efflux pump inhibitor against M. smegmatis in whole-cell efflux-pump investigation. Followed HIT Il employed against M. abscessus for efflux-pump inhibition investigations and notable whole-cell efflux-pump inhibitory profile has been observed. The theoretical investigations predicted compound Il to be selective towards MmpL4, with significant hydrogen bonding and π-π stacking interactions effectively blocking a critical Asp-Tyr dyad interaction network necessary for proton translocation. 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引用次数: 0
摘要
为应对抗菌药耐药性(AMR)这一持续的公共卫生紧急状况,一项重要的关键战略是发现新型分枝杆菌外排泵抑制剂(EPIs),作为联合药物疗法的潜在辅助剂。研究人员有兴趣发现可能与现有抗生素产生协同作用的新化学类型,并将其作为联合疗法的一部分。这种策略可以延缓现有抗生素耐药性的产生,并提高其对耐药性分枝杆菌菌株的疗效。近几十年来,用于 EPI 开发的方法引人注目,并发现了包括 SQ109 和 AU1235 在内的几种 EPI。3-(2-hydroxyphenyl)-5-(aryl)-pyrazoline 系列研究了对烟曲霉分枝杆菌和脓肿分枝杆菌的全细胞外排泵抑制活性。研究人员利用机器学习和分子动力学方法构建了嵌入脂质双分子层的 MmpL4/5 复合物,从而确定了可能的结合位点,并预测了配体与蛋白质的结合能。在全细胞外排泵研究中,化合物 Il,2-(5-(4-氟苯基)-4,5-二氢-1H-吡唑-3-基)苯酚被鉴定为对 M. smegmatis 最有效的外排泵抑制剂。在对脓肿霉菌进行外排泵抑制研究时,使用了 HIT Il,并观察到了显著的全细胞外排泵抑制特征。理论研究预测化合物 Il 对 MmpL4 具有选择性,其显著的氢键和 π-π 堆叠相互作用有效地阻断了质子转运所必需的关键 Asp-Tyr 二元相互作用网络。MD 模拟和全细胞实验表明,化合物 Il 有可能发展成为现有霉菌感染治疗方案的辅助药物。
Mycobactin analogue interacting with siderophore efflux-pump protein: insights from molecular dynamics simulations and whole-cell assays
In response to continued public health emergency of antimicrobial resistance (AMR), a significant key strategy is the discovery of novel mycobacterial efflux-pump inhibitors (EPIs) as potential adjuvants in combination drug therapy. Interest in identifying new chemotypes which could potentially synergize with the existing antibiotics and can be deployed as part of a combination therapy. This strategy could delay the emergence of resistance to existing antibiotics and increase their efficacy against resistant strains of mycobacterial species. In recent decades, notable approaches have been accounted for EPI development and have resulted in the discovery of several EPIs including SQ109 and AU1235. In context, to accelerate newer EPIs with novel mode of action here we have discussed mycobactin analogues and highlighted in silico binding orientation with siderophore efflux-pump proteins MmpL4/5.3-(2-hydroxyphenyl)-5-(aryl)-pyrazoline series was investigated for whole-cell efflux-pump inhibitory activity against Mycobacterium smegmatis and Mycobacterium abscessus. Machine learning and molecular dynamics were performed to construct a MmpL4/5 complex embedded in a lipid bilayer to identify the putative binding site and to predict ligand-protein binding energetics. Furthermore, the identified HIT compound was investigated in synergistic assay with bedaquiline.Compound Il, 2-(5-(4-fluorophenyl)-4,5-dihydro-1H-pyrazol-3-yl)phenol, was identified as the most potent efflux pump inhibitor against M. smegmatis in whole-cell efflux-pump investigation. Followed HIT Il employed against M. abscessus for efflux-pump inhibition investigations and notable whole-cell efflux-pump inhibitory profile has been observed. The theoretical investigations predicted compound Il to be selective towards MmpL4, with significant hydrogen bonding and π-π stacking interactions effectively blocking a critical Asp-Tyr dyad interaction network necessary for proton translocation. Compound Il with bedaquiline highlighted an additive profile against the M. abscessus pathogen.MD simulations and whole-cell assays are indicating potential development of compound Il as an adjunct to the existing therapeutic regimen against mycobacterial infections.