绘制自杀抑制剂在人吲哚胺 2,3-双加氧酶 1 中的结合轨迹。
Mapping the Binding Trajectory of a Suicide Inhibitor in Human Indoleamine 2,3-Dioxygenase 1.
机构信息
Department of Physiology and Biophysics , Albert Einstein College of Medicine , Bronx , New York 10461 , United States.
出版信息
J Am Chem Soc. 2018 Nov 7;140(44):14538-14541. doi: 10.1021/jacs.8b07994. Epub 2018 Oct 24.
Abstract
Human indoleamine 2,3-dioxygenase 1 (hIDO1) is an important heme-containing enzyme that is a key drug target for cancer immunotherapy. Several hIDO1 inhibitors have entered clinical trials, among which BMS-986205 (BMS) stands out as the only suicide inhibitor. Despite its "best-in-class" activity, the action mechanism of BMS remains elusive. Here, we report three crystal structures of hIDO1-BMS complexes that define the complete binding trajectory of the inhibitor. BMS first binds in a solvent exposed surface cleft near the active site in an extended conformation. The initial binding partially unfolds the active site, which triggers heme release, thereby exposing a new binding pocket. The inhibitor then undergoes a large scale movement to this new binding pocket, where it binds by adopting a high energy kinked conformation. Finally, the inhibitor relaxes to a bent conformation, via an additional large scale rearrangement, culminating in the energy minimum state. The structural data offer a molecular explanation for the remarkable efficacy and suicide inhibition activity of the inhibitor. They also suggest a novel strategy that can be applied for drug development targeting hIDO1 and related enzymes.
摘要
人吲哚胺 2,3-双加氧酶 1(hIDO1)是一种重要的含血红素酶,是癌症免疫治疗的关键药物靶点。几种 hIDO1 抑制剂已进入临床试验,其中 BMS-986205(BMS)作为唯一的自杀抑制剂脱颖而出。尽管具有“同类最佳”的活性,但 BMS 的作用机制仍难以捉摸。在这里,我们报告了三个 hIDO1-BMS 复合物的晶体结构,这些结构定义了抑制剂的完整结合轨迹。BMS 首先以伸展构象结合在靠近活性位点的溶剂暴露表面裂隙中。初始结合部分使活性位点展开,从而暴露出一个新的结合口袋。抑制剂随后发生大规模运动至这个新的结合口袋,在那里它通过采用高能扭曲构象进行结合。最后,抑制剂通过进一步的大规模重排松弛到弯曲构象,最终达到能量最低状态。结构数据为抑制剂的显著疗效和自杀抑制活性提供了分子解释。它们还为针对 hIDO1 和相关酶的药物开发提供了一种新的策略。
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