表没食子儿茶素和鹰嘴豆芽素A结构类似物对AMPK ADaM位点的变构激活:计算分子模拟研究
Allosteric activation of AMPK ADaM's site by structural analogs of Epigallocatechin and Galegine: computational molecular modeling investigation.
作者信息
Abdalla Mohnad, Ogunlana Abdeen Tunde, Akinboade Modinat Wuraola, Muraina Ridwan Olajire, Adeosun Oyindamola Anthonia, Okpasuo Onyekachi Juliet, Olaoba Olamide Tosin, Alouffi Abdulaziz, Albutti Aqel, Kurdee Zeyad, AlAfaleq Nouf Omar, Fatoberu Ajibola Hannah, Adelus Temitope Isaac
机构信息
Pediatric Research Institute, Children's Hospital Affiliated to Shandong University, Jinan, 250022 Shandong China.
Institute for Advanced Medical Research and Training, College of Medicine, University of Ibadan, Ibadan, Oyo State Nigeria.
出版信息
In Silico Pharmacol. 2025 Jan 30;13(1):19. doi: 10.1007/s40203-025-00311-x. eCollection 2025.
UNLABELLED
5'-Adenosine Monophosphate Protein Kinase (AMPK) is a central protein involved in cellular energy homeostasis, turning on catabolic pathways when the energy level is depleted and inhibiting anabolic pathways utilizing ATP. AMPK is implicated in several diseases including but not limited to diabetes, cancer, and cardiovascular diseases. Regulation of AMPK is cogent for restoring cellular energy levels which mediates the pathways leading to these diseases. Allosteric activation of AMPK via a novel ADaM site is intended for study in this case. In the search for AMPK activators, this study engaged a database for a virtual screening campaign through the ZINC15 database involving pharmacophoric modeling of two reported natural bioactive AMPK activators- Galegine and Epigallocatechin. Generated pharmacophores were targeted against the AMPK-ADaM site by employing various tools within the structure-based drug discovery process among which include consensus molecular docking, physicochemical profiling, ADMET, and molecular dynamics simulation. Advanced methods such as molecular mechanics (MM/GBSA) and quantitative structure-activity relationship (QSAR) were also performed. This investigation revealed promising pharmacophores that show better interactions and pharmacokinetic properties compared to the standards. This study proposes further development of these pharmacophores into potential drugs with better efficacies that could enhance the activation of the AMPK-ADaM site in ameliorating the aforementioned diseases.
SUPPLEMENTARY INFORMATION
The online version contains supplementary material available at 10.1007/s40203-025-00311-x.
未标记
5'-单磷酸腺苷蛋白激酶(AMPK)是参与细胞能量稳态的核心蛋白,当能量水平耗尽时开启分解代谢途径,并抑制利用ATP的合成代谢途径。AMPK与多种疾病有关,包括但不限于糖尿病、癌症和心血管疾病。AMPK的调节对于恢复细胞能量水平至关重要,而细胞能量水平介导了导致这些疾病的途径。在这种情况下,旨在研究通过一个新的ADaM位点对AMPK进行变构激活。在寻找AMPK激活剂的过程中,本研究通过ZINC15数据库参与了一项虚拟筛选活动,该数据库涉及对两种已报道的天然生物活性AMPK激活剂——鹰嘴豆芽素和表没食子儿茶素进行药效团建模。通过基于结构的药物发现过程中的各种工具,包括一致性分子对接、物理化学分析、ADMET和分子动力学模拟,将生成的药效团靶向AMPK-ADaM位点。还进行了分子力学(MM/GBSA)和定量构效关系(QSAR)等先进方法。这项研究揭示了有前景的药效团,与标准品相比,它们显示出更好的相互作用和药代动力学性质。本研究建议将这些药效团进一步开发成具有更好疗效的潜在药物,这些药物可以增强AMPK-ADaM位点的激活,从而改善上述疾病。
补充信息
在线版本包含可在10.1007/s40203-025-00311-x获取的补充材料。
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