选择性抑制 hsp90 Paralogs:揭示螺旋 1 在 Grp94 选择性配体结合中的作用

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-29 DOI:10.1002/prot.26756
Nanette L S Que, Paul M Seidler, Wen J Aw, Gabriela Chiosis, Daniel T Gewirth
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引用次数: 0

摘要

Grp94 是 hsp90 合子家族的内质网旁系亲属,通过其高度保守的 ATP 结合位点成为治疗干预的目标。旁系亲属选择性抑制剂的设计依赖于对驱动选择性抑制剂产生更高亲和力的蛋白质结构元素的了解。在这里,我们测定了 Grp94 和 Hsp90 与 Grp94 选择性抑制剂 PU-H36 复合物的结构,以及 Grp94 与非选择性抑制剂 PU-H71 复合物的结构。在 Grp94 中,PU-H36 通过利用位点 2(与 ATP 结合腔相邻的 Grp94 特异侧袋)获得较高的亲和力,但在 Hsp90 中,PU-H36 占用了位点 1(所有同系物均可进入的侧袋),与之发生的相互作用亲和力较低。Grp94 与 PU-H71 复合物的结构只显示了位点 1 的结合。当配体与 Hsp90 和 Grp94 的位点 1 结合时,N 端结构域中螺旋 4 和 5 的构象会发生变化,而 Grp94 中只有位点 2 的口袋与配体结合时才会发生较大的构象变化,其中也涉及螺旋 1。Hsp90 的位点 2 被阻断,其螺旋 1 构象对配体结合不敏感。为了了解螺旋 1 在配体选择性中的作用,我们测试了 PU-H36 和其他 Grp94 选择性配体与嵌合 Grp94/Hsp90 构建物的结合。这些研究表明,螺旋 1 是位点 2 目标配体选择性的主要决定因素,同时也影响着 Hsp90 准同源物的 ATPase 活性速率。
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Selective Inhibition of hsp90 Paralogs: Uncovering the Role of Helix 1 in Grp94-Selective Ligand Binding.

Grp94 is the endoplasmic reticulum paralog of the hsp90 family of chaperones, which have been targeted for therapeutic intervention via their highly conserved ATP binding sites. The design of paralog-selective inhibitors relies on understanding the protein structural elements that drive higher affinity in selective inhibitors. Here, we determined the structures of Grp94 and Hsp90 in complex with the Grp94-selective inhibitor PU-H36, and of Grp94 with the non-selective inhibitor PU-H71. In Grp94, PU-H36 derives its higher affinity by utilizing Site 2, a Grp94-specific side pocket adjoining the ATP binding cavity, but in Hsp90 PU-H36 occupies Site 1, a side pocket that is accessible in all paralogs with which it makes lower affinity interactions. The structure of Grp94 in complex with PU-H71 shows only Site 1 binding. While changes in the conformation of helices 4 and 5 in the N-terminal domain occur when ligands bind to Site 1 of both Hsp90 and Grp94, large conformational shifts that also involve helix 1 are associated with the engagement of the Site 2 pocket in Grp94 only. Site 2 in Hsp90 is blocked and its helix 1 conformation is insensitive to ligand binding. To understand the role of helix 1 in ligand selectivity, we tested the binding of PU-H36 and other Grp94-selective ligands to chimeric Grp94/Hsp90 constructs. These studies show that helix 1 is the major determinant of selectivity for Site 2 targeted ligands and also influences the rate of ATPase activity in Hsp90 paralogs.

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