通过 GCE-SAR 对芳香笼和二烷基赖氨酸的系统变异揭示了 CBX5 读码蛋白结合的机制见解。

Systematic Variation of Both the Aromatic Cage and Dialkyllysine via GCE-SAR Reveal Mechanistic Insights in CBX5 Reader Protein Binding.

机构信息

Department of Chemistry, University of North Carolina at Chapel Hill, CB 3290, Chapel Hill, North Carolina 27599 United States.

Center for Integrative Chemical Biology and Drug Discovery, Division of Chemical Biology and Medicinal Chemistry, UNC Eshelman School of Pharmacy, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599 United States.

出版信息

J Med Chem. 2022 Feb 10;65(3):2646-2655. doi: 10.1021/acs.jmedchem.1c02049. Epub 2022 Jan 11.

DOI:10.1021/acs.jmedchem.1c02049

PMID:35014255

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9048841/

Abstract

Development of inhibitors for histone methyllysine reader proteins is an active area of research due to the importance of reader protein-methyllysine interactions in transcriptional regulation and disease. Optimized peptide-based chemical probes targeting methyllysine readers favor larger alkyllysine residues in place of methyllysine. However, the mechanism by which these larger substituents drive tighter binding is not well understood. This study describes the development of a two-pronged approach combining genetic code expansion (GCE) and structure-activity relationships (SAR) through systematic variation of both the aromatic binding pocket in the protein and the alkyllysine residues in the peptide to probe inhibitor recognition in the CBX5 chromodomain. We demonstrate a novel change in driving force for larger alkyllysines, which weaken cation-π interactions but increases dispersion forces, resulting in tighter binding. This GCE-SAR approach establishes discrete energetic contributions to binding from both ligand and protein, providing a powerful tool to gain mechanistic understanding of SAR trends.

摘要

由于甲基赖氨酸读蛋白在转录调控和疾病中的重要性，开发组蛋白甲基赖氨酸读蛋白抑制剂是一个活跃的研究领域。针对甲基赖氨酸读蛋白的优化肽类化学探针有利于用较大的烷基赖氨酸取代甲基赖氨酸。然而，这些较大取代基驱动更紧密结合的机制尚不清楚。本研究描述了一种双管齐下的方法的开发，该方法结合了遗传密码扩展（GCE）和构效关系（SAR），通过系统地改变蛋白中的芳香结合口袋和肽中的烷基赖氨酸残基，以探测 CBX5 染色质域中抑制剂的识别。我们证明了一种新的驱动力变化，对于较大的烷基赖氨酸，它削弱了阳离子-π相互作用，但增加了色散力，从而导致更紧密的结合。这种 GCE-SAR 方法确定了配体和蛋白质结合的离散能量贡献，为深入了解 SAR 趋势提供了有力工具。

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