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结构域 eIF4A:RNA 复合物与界面抑制剂去甲培他明 A 结合的晶体结构揭示的功能模拟

Functional mimicry revealed by the crystal structure of an eIF4A:RNA complex bound to the interfacial inhibitor, desmethyl pateamine A.

机构信息

McGill University, Department of Biochemistry, Rm 810, 3655 Promenade Sir William Osler, Montreal, QC H3G 1Y6, Canada.

Department of Chemistry and Biochemistry and The Baylor CPRIT Synthesis and Drug Lead Discovery Laboratory, Baylor University, 101 Bagby Avenue, Waco, TX 76798-7348, USA.

出版信息

Cell Chem Biol. 2021 Jun 17;28(6):825-834.e6. doi: 10.1016/j.chembiol.2020.12.006. Epub 2021 Jan 6.

DOI:10.1016/j.chembiol.2020.12.006
PMID:33412110
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8626061/
Abstract

Interfacial inhibitors exert their biological effects through co-association with two macromolecules. The pateamine A (PatA) class of molecules function by stabilizing eukaryotic initiation factor (eIF) 4A RNA helicase onto RNA, resulting in translation initiation inhibition. Here, we present the crystal structure of an eIF4A1:RNA complex bound to an analog of the marine sponge-derived natural product PatA, C5-desmethyl PatA (DMPatA). One end of this small molecule wedges itself between two RNA bases while the other end is cradled by several protein residues. Strikingly, DMPatA interacts with the eIF4A1:RNA complex in an almost identical fashion as rocaglamide A (RocA), despite being completely unrelated from a structural standpoint. The structural data rationalize the ability of PatA analogs to target a wider range of RNA substrates compared to RocA. We define the molecular basis of how DMPatA is able to clamp eIF4A1 onto RNA, imparting potent inhibitory properties to this molecule.

摘要

界面抑制剂通过与两种大分子的共缔合来发挥其生物学效应。Pateamine A(PatA)类分子通过稳定真核起始因子(eIF)4A RNA 解旋酶与 RNA 的结合,从而抑制翻译起始。在这里,我们展示了与海洋海绵衍生天然产物 PatA 的类似物 C5-去甲基 PatA(DMPatA)结合的 eIF4A1:RNA 复合物的晶体结构。这种小分子的一端楔入两个 RNA 碱基之间,而另一端则被几个蛋白质残基支撑。引人注目的是,尽管在结构上完全没有关系,但 DMPatA 与 eIF4A1:RNA 复合物的相互作用方式与罗卡酰胺 A(RocA)几乎相同。结构数据合理地解释了 PatA 类似物能够针对更广泛的 RNA 底物的能力,而不是 RocA。我们定义了 DMPatA 能够将 eIF4A1 夹在 RNA 上的分子基础,赋予该分子强大的抑制特性。

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