合理设计双域结合型 N-乙酰半乳糖胺转移酶 2 抑制剂,提高对 T1 和 T3 异构体的选择性

JACS Au Pub Date : 2024-09-11 DOI:10.1021/jacsau.4c00633
Ismael Compañón, Collin J. Ballard, Erandi Lira-Navarrete, Tanausú Santos, Serena Monaco, Juan C. Muñoz-García, Ignacio Delso, Jesus Angulo, Thomas A. Gerken, Katrine T. Schjoldager, Henrik Clausen, Tomás Tejero, Pedro Merino, Francisco Corzana, Ramon Hurtado-Guerrero, Mattia Ghirardello
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引用次数: 0

摘要

GalNAc-转移酶(GalNAc-T)家族由20个同工酶组成,通过将GalNAc单位转移到丝氨酸/苏氨酸残基上,调节粘蛋白糖肽的O-糖基化过程。特定 GalNAc-Ts 的失调与多种疾病相关,因此这些酶成为药物开发的诱人靶点。开发抑制剂是了解 GalNAc-Ts 对人类疾病影响的关键。然而,开发针对单个 GalNAc-Ts 的选择性抑制剂是一项重大挑战,因为这些同工酶之间具有共同的结构相似性,而且天然底物之间存在一定程度的冗余。在此,我们报告了一种 GalNAc-T2 抑制剂的开发情况,与 T1 和 T3 同工酶相比,它具有更高的效力。最有希望的候选化合物在肽链上具有双价的 GalNAc 和噻吩分子,能与酶的凝集素结构域和催化结构域结合。竞争性饱和转移差核磁共振实验证实了这种结合模式,分子动力学模拟也验证了这种结合模式。该抑制剂对 GalNAc-T2 的 IC50 值为 21.4 μM,对 T3 和 T1 同工酶的选择性分别高出 8 倍和 32 倍,这表明在根据目标同工酶的独特结构特征合成特异性 GalNAc-T 抑制剂方面迈出了重要一步。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Rational Design of Dual-Domain Binding Inhibitors for N-Acetylgalactosamine Transferase 2 with Improved Selectivity over the T1 and T3 Isoforms

Rational Design of Dual-Domain Binding Inhibitors for N-Acetylgalactosamine Transferase 2 with Improved Selectivity over the T1 and T3 Isoforms
The GalNAc-transferase (GalNAc-T) family, consisting of 20 isoenzymes, regulates the O-glycosylation process of mucin glycopeptides by transferring GalNAc units to serine/threonine residues. Dysregulation of specific GalNAc-Ts is associated with various diseases, making these enzymes attractive targets for drug development. The development of inhibitors is key to understanding the implications of GalNAc-Ts in human diseases. However, developing selective inhibitors for individual GalNAc-Ts represents a major challenge due to shared structural similarities among the isoenzymes and some degree of redundancy among the natural substrates. Herein, we report the development of a GalNAc-T2 inhibitor with higher potency compared to those of the T1 and T3 isoforms. The most promising candidate features bivalent GalNAc and thiophene moieties on a peptide chain, enabling binding to both the lectin and catalytic domains of the enzyme. The binding mode was confirmed by competitive saturation transfer difference NMR experiments and validated through molecular dynamics simulations. The inhibitor demonstrated an IC50 of 21.4 μM for GalNAc-T2, with 8- and 32-fold higher selectivity over the T3 and T1 isoforms, respectively, representing a significant step forward in the synthesis of specific GalNAc-T inhibitors tailored to the unique structural features of the targeted isoform.
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