选择性和快速细胞渗透性人半胱天冬酶-3 的抑制剂。

Selective and Rapid Cell-Permeable Inhibitor of Human Caspase-3.

机构信息

Departments of Molecular Medicine and Integrative Structural and Computational Biology , The Scripps Research Institute , 10550 North Torrey Pines Road , La Jolla , California 92037 , United States.

出版信息

ACS Chem Biol. 2019 Nov 15;14(11):2463-2470. doi: 10.1021/acschembio.9b00564. Epub 2019 Aug 1.

DOI:10.1021/acschembio.9b00564

PMID:31334631

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6858491/

Abstract

Individual roles and overlapping functionalities of 12 human caspases during apoptosis and other cellular processes remain poorly resolved primarily due to a lack of chemical tools. Here we present a new selective caspase-3 inhibitor, termed Ac-ATS010-KE, with rapid and irreversible binding kinetics. Relative to previously designed caspase-3-selective molecules that have tremendously abated inhibitory rates and thus limited use in biological settings, the improved kinetics of Ac-ATS010-KE permits its use in a cell-based capacity. We demonstrate that Ac-ATS010-KE prevents apoptosis with comparable efficacy to the general caspase inhibitor Ac-DEVD-KE and surprisingly does so without side-chain methylation. This observation is in contrast to the well-established peptide modification strategy typically employed for improving cellular permeability. Ac-ATS010-KE protects against extrinsic apoptosis, which demonstrates the utility of a thiophene carboxylate leaving group in biological settings, challenges the requisite neutralization of free carboxylic acids to improve cell permeability, and provides a tool-like compound to interrogate the role of caspase-3 in a variety of cellular processes.

摘要

个体角色和 12 个人类半胱天冬酶在细胞凋亡和其他细胞过程中的重叠功能主要由于缺乏化学工具而仍未得到很好的解决。在这里，我们提出了一种新的选择性半胱天冬酶-3 抑制剂，称为 Ac-ATS010-KE，具有快速和不可逆的结合动力学。与之前设计的具有极大降低的抑制率的、因此在生物学环境中使用受限的半胱天冬酶-3 选择性分子相比，Ac-ATS010-KE 的改进动力学允许其在基于细胞的能力中使用。我们证明 Ac-ATS010-KE 可防止细胞凋亡，其功效与一般的半胱天冬酶抑制剂 Ac-DEVD-KE 相当，并且令人惊讶的是，它没有进行侧链甲基化。这一观察结果与通常用于提高细胞通透性的肽修饰策略形成对比。Ac-ATS010-KE 可防止外在细胞凋亡，这证明了噻吩羧酸酯离去基团在生物学环境中的实用性，挑战了改善细胞通透性所需的游离羧酸的中和，并提供了一种工具样化合物来研究半胱天冬酶-3 在各种细胞过程中的作用。

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