Bernardo P Moreira, Sandra G Gava, Simone Haeberlein, Sophie Gueye, Ester S S Santos, Michael H W Weber, Tigran M Abramyan, Christoph G Grevelding, Marina M Mourão, Franco H Falcone
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引用次数: 0
Abstract
Introduction: Schistosomiasis has for many years relied on a single drug, praziquantel (PZQ) for treatment of the disease. Immense efforts have been invested in the discovery of protein kinase (PK) inhibitors; however, given that the majority of PKs are still not targeted by an inhibitor with a useful level of selectivity, there is a compelling need to expand the chemical space available for synthesizing new, potent, and selective PK inhibitors. Small-molecule inhibitors targeting the ATP pocket of the catalytic domain of PKs have the potential to become drugs devoid of (major) side effects, particularly if they bind selectively. This is the case for type II PK inhibitors, which cause PKs to adopt the so-called DFG-out conformation, corresponding to the inactive state of the enzyme.
Methods: The goal was to perform a virtual screen against the ATP pocket of the inactive JNK protein kinase. After virtually screening millions of compounds, Atomwise provided 85 compounds predicted to target c-Jun N-terminal kinase (JNK) as type II inhibitors. Selected compounds were screened in vitro against larval stage (schistosomula) of S. mansoni using the XTT assay. Adult worms were assessed for motility, attachment, and pairing stability. Active compounds were further analyzed by molecular docking against SmJNK.
Results: In total, 33 compounds were considered active in at least one of the assays, and two compounds were active in every in vitro screening assay. The two most potent compounds presented strong effects against both life stages of the parasite, and microscopy analysis showed phenotypic alterations on the tegument, in the gonads, and impairment of cell proliferation.
Conclusion: The approach to screen type II kinase inhibitors resulted in the identification of active compounds that will be further developed against schistosomiasis.
简介:多年来,血吸虫病的治疗一直依赖于吡喹酮(PZQ)这一单一药物。在发现蛋白激酶(PK)抑制剂方面已经投入了巨大的努力;然而,鉴于大多数PK仍未被具有有效选择性的抑制剂靶向,因此迫切需要扩大化学空间,以合成新的、有效的和选择性的PK抑制剂。靶向PKs催化结构域ATP口袋的小分子抑制剂有可能成为没有(主要)副作用的药物,特别是如果它们选择性结合。这就是II型PK抑制剂的情况,它导致PK采用所谓的DFG-out构象,对应于酶的非活性状态。方法:目的是对失活的JNK蛋白激酶的ATP袋进行虚拟筛选。在对数百万种化合物进行了实际筛选后,Atomwise提供了85种预测靶向c-Jun n -末端激酶(JNK)的化合物作为II型抑制剂。采用XTT法对选定化合物进行体外抗曼氏血吸虫幼虫(血吸虫)活性筛选。评估成虫的运动性、附着性和配对稳定性。活性化合物进一步与SmJNK进行分子对接分析。结果:总共有33种化合物在至少一种检测中被认为是有活性的,两种化合物在每一种体外筛选检测中都有活性。两种最有效的化合物对寄生虫的两个生命阶段都有很强的作用,显微镜分析显示被皮、生殖腺的表型改变和细胞增殖的损害。结论:筛选II型激酶抑制剂的方法鉴定出了抗血吸虫病的活性化合物,这些活性化合物将被进一步开发。
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