具有明确构效关系的选择性TASK-1抑制剂可降低癌细胞增殖和活力。

Selective TASK-1 Inhibitor with a Defined Structure-Activity Relationship Reduces Cancer Cell Proliferation and Viability.

作者信息

Arévalo Bárbara, Bedoya Mauricio, Kiper Aytug K, Vergara Fernando, Ramírez David, Mazola Yuliet, Bustos Daniel, Zúñiga Rafael, Cikutovic Rocio, Cayo Angel, Rinné Susanne, Ramirez-Apan M Teresa, Sepúlveda Francisco V, Cerda Oscar, López-Collazo Eduardo, Decher Niels, Zúñiga Leandro, Gutierrez Margarita, González Wendy

机构信息

Centro de Estudios en Alimentos Procesados-CEAP, Conicyt, Programa Regional R19A10001, Gore Maule, 3460000 Talca, Chile.

Centro de Investigación de Estudios Avanzados del Maule (CIEAM), Vicerrectoría de Investigación y Postgrado, Universidad Católica del Maule, 3460000 Talca, Chile.

出版信息

J Med Chem. 2022 Nov 24;65(22):15014-15027. doi: 10.1021/acs.jmedchem.1c00378. Epub 2022 Nov 15.

DOI:10.1021/acs.jmedchem.1c00378

PMID:36378530

Abstract

Chemical structures of selective blockers of TASK channels contain aromatic groups and amide bonds. Using this rationale, we designed and synthesized a series of compounds based on 3-benzamidobenzoic acid. These compounds block TASK-1 channels by binding to the central cavity. The most active compound is 3-benzoylamino-(2-ethyl-phenyl)-benzamide or , blocking TASK-1 with an IC of 148 nM, showing a reduced inhibition of TASK-3 channels and not a significant effect on different K channels. We identified putative F3-binding sites in the TASK-1 channel by molecular modeling studies. Mutation of seven residues to A (I118A, L122A, F125A, Q126A, L232A, I235A, and L239A) markedly decreased the F3-induced inhibition of TASK-1 channels, consistent with the molecular modeling predictions. blocks cell proliferation and viability in the MCF-7 cancer cell line but not in TASK-1 knockdown MCF-7 cells, indicating that it is acting in TASK-1 channels. These results indicated that TASK-1 is necessary to drive proliferation in the MCF-7 cancer cell line.

摘要

TASK通道选择性阻滞剂的化学结构包含芳香基团和酰胺键。基于这一原理，我们设计并合成了一系列基于3-苯甲酰胺基苯甲酸的化合物。这些化合物通过与中央腔结合来阻断TASK-1通道。活性最高的化合物是3-苯甲酰氨基-（2-乙基-苯基）-苯甲酰胺，即，以148 nM的IC阻断TASK-1，对TASK-3通道的抑制作用降低，对不同的钾通道无显著影响。我们通过分子模拟研究在TASK-1通道中确定了假定的F3结合位点。将七个残基突变为丙氨酸（I118A、L122A、F125A、Q126A、L232A、I235A和L239A）显著降低了F3诱导的TASK-1通道抑制作用，这与分子模拟预测一致。在MCF-7癌细胞系中阻断细胞增殖和活力，但在TASK-1基因敲低的MCF-7细胞中则不然，这表明它作用于TASK-1通道。这些结果表明，TASK-1是驱动MCF-7癌细胞系增殖所必需的。

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具有明确构效关系的选择性TASK-1抑制剂可降低癌细胞增殖和活力。

Selective TASK-1 Inhibitor with a Defined Structure-Activity Relationship Reduces Cancer Cell Proliferation and Viability.

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