Marius Amann, Robin Warstat, Kay Kristin Rechten, Philip Theuer, Magdalena Schustereder, Sophie Clavey, Bernhard Breit, Oliver Einsle, Martin Hügle, Michaela Petter, Stefan Günther
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引用次数: 0
摘要
随着疟疾抗药性的增加,有必要探索新的治疗策略。以表观遗传途径为靶点可以开辟新的、有前景的治疗途径。在这项研究中,我们重点研究了疟疾病原体恶性疟原虫的重要溴域蛋白1(PfBDP1)。利用泛选择性溴化结构域抑制剂 MPM6,我们发现了一种强效的初始命中物,并随后将其开发成纳摩尔粘合剂。通过虚拟对接、等温滴定量热法和 X 射线晶体学相结合的方法,我们阐明了新抑制剂与蛋白质(PfBDP1-BRD)的溴结构域(BRD)之间的分子相互作用。我们的研究结果包括首次将抑制剂与 PfBRD1-BRD 以及间日疟原虫近似同源蛋白的溴结构域(PvBDP1-BRD)的结构共同结晶。这些结构为了解它们的结合机制提供了新的视角。通过在恶性疟原虫体内有条件地敲除 PfBDP1,进一步验证了寄生虫对抑制剂的敏感性,突出了它在疟疾靶向治疗方法中的潜力。
A novel inhibitor against the Bromodomain Protein 1 of the malaria pathogen Plasmodium falciparum.
The rise of drug resistances in malaria necessitates the exploration of novel therapeutic strategies. Targeting epigenetic pathways could open new, promising treatment avenues. In this study, we focus on the essential Bromodomain Protein 1 (PfBDP1) of the malaria pathogen Plasmodium falciparum. Utilizing the pan-selective bromodomain inhibitor MPM6, we identified a potent initial hit and subsequently developed it into a nanomolar binder. Through a combination of virtual docking, isothermal titration calorimetry, and X-ray crystallography, we elucidated the molecular interactions of the new inhibitors with the bromodomain (BRD) of the protein (PfBDP1-BRD). Our findings include the first co-crystallized inhibitors with the structures of PfBRD1-BRD as well as the bromodomain of the close homologous protein of Plasmodium vivax (PvBDP1-BRD). The structures provide new insights into their binding mechanisms. Further validation using conditional knockdown of PfBDP1 in P. falciparum demonstrated parasite sensitivity to the inhibitor, underscoring its potential in a targeted therapeutic approach against malaria.
期刊介绍:
Quality research. Outstanding publications. With an impact factor of 3.124 (2019), ChemMedChem is a top journal for research at the interface of chemistry, biology and medicine. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies.
ChemMedChem publishes primary as well as critical secondary and tertiary information from authors across and for the world. Its mission is to integrate the wide and flourishing field of medicinal and pharmaceutical sciences, ranging from drug design and discovery to drug development and delivery, from molecular modeling to combinatorial chemistry, from target validation to lead generation and ADMET studies. ChemMedChem typically covers topics on small molecules, therapeutic macromolecules, peptides, peptidomimetics, and aptamers, protein-drug conjugates, nucleic acid therapies, and beginning 2017, nanomedicine, particularly 1) targeted nanodelivery, 2) theranostic nanoparticles, and 3) nanodrugs.
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