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造血祖细胞激酶1(HPK1)的螺氮杂吲哚啉抑制剂的发现。

Discovery of Spiro-azaindoline Inhibitors of Hematopoietic Progenitor Kinase 1 (HPK1).

作者信息

Chan Bryan K, Seward Eileen, Lainchbury Michael, Brewer Thomas F, An Le, Blench Toby, Cartwright Matthew W, Chan Grace Ka Yan, Choo Edna F, Drummond Jason, Elliott Richard L, Gancia Emanuela, Gazzard Lewis, Hu Baihua, Jones Graham E, Luo Xifeng, Madin Andrew, Malhotra Sushant, Moffat John G, Pang Jodie, Salphati Laurent, Sneeringer Christopher J, Stivala Craig E, Wei Binqing, Wang Weiru, Wu Ping, Heffron Timothy P

机构信息

Genentech Inc., 1 DNA Way, South San Francisco, California 94080, United States.

Charles River Laboratories, 8-9 Spire Green, Flex Meadow, Harlow, Essex CM19 5TR, United Kingdom.

出版信息

ACS Med Chem Lett. 2021 Dec 8;13(1):84-91. doi: 10.1021/acsmedchemlett.1c00473. eCollection 2022 Jan 13.

DOI:10.1021/acsmedchemlett.1c00473
PMID:35059127
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8762754/
Abstract

Hematopoietic progenitor kinase 1 (HPK1) is implicated as a negative regulator of T-cell receptor-induced T-cell activation. Studies using HPK1 kinase-dead knock-in animals have demonstrated the loss of HPK1 kinase activity resulted in an increase in T-cell function and tumor growth inhibition in glioma models. Herein, we describe the discovery of a series of small molecule inhibitors of HPK1. Using a structure-based drug design approach, the kinase selectivity of the molecules was significantly improved by inducing and stabilizing an unusual P-loop folded binding mode. The metabolic liabilities of the initial 7-azaindole high-throughput screening hit were mitigated by addressing a key metabolic soft spot along with physicochemical property-based optimization. The resulting spiro-azaindoline HPK1 inhibitors demonstrated improved ADME properties and the ability to induce cytokine production in primary human T-cells.

摘要

造血祖细胞激酶1(HPK1)被认为是T细胞受体诱导的T细胞活化的负调节因子。使用HPK1激酶失活敲入动物的研究表明,HPK1激酶活性的丧失导致T细胞功能增强和胶质瘤模型中肿瘤生长受到抑制。在此,我们描述了一系列HPK1小分子抑制剂的发现。采用基于结构的药物设计方法,通过诱导和稳定一种不寻常的P环折叠结合模式,显著提高了分子的激酶选择性。通过解决一个关键的代谢弱点以及基于物理化学性质的优化,减轻了最初7-氮杂吲哚高通量筛选命中物的代谢负担。所得的螺氮杂吲哚HPK1抑制剂表现出改善的药物代谢动力学性质以及在原代人T细胞中诱导细胞因子产生的能力。

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