Chemokine receptors : therapeutic potential in asthma.

Clare M Lloyd, Zarin Brown
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引用次数: 220

Abstract

Leukocyte infiltration of the lung is a characteristic feature of allergic asthma and it is thought that these cells are selectively recruited by chemokines. Extensive research has confirmed that chemokine receptors are expressed on the main cell types involved in asthma, including eosinophils, T helper type 2 cells, mast cells and even neutrophils. Moreover, animal experiments have outlined a functional role for these receptors and their ligands. Chemokines signal via seven-transmembrane spanning G-protein coupled receptors, which are favored targets of the pharmaceutical industry due to the possibility of designing small-molecule inhibitors. In fact, this family represents the first group of cytokines where small-molecule inhibitors have been designed. However, the search for efficient antagonists of chemokine/chemokine receptors has not been easy; a particular feature of the chemokine system is the number of molecules with overlapping functions and binding specificities, as well as the difficulty in reconciling the in vivo biologic functional validation of chemokines in rodent models with the development of antagonists which bind the human receptor, because of the lack of species cross-reactivity. The chemokines and their receptors that are active during allergic reactions are reviewed. Possible points of interaction that may be a target for development of new therapies, as well as the progress to date in developing inhibitors of key chemokine receptors for asthma therapy, are also discussed.

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趋化因子受体:哮喘的治疗潜力。
肺部白细胞浸润是过敏性哮喘的一个特征,据认为这些细胞是被趋化因子选择性募集的。大量研究证实,趋化因子受体在哮喘的主要细胞类型上表达,包括嗜酸性粒细胞、辅助T型2细胞、肥大细胞甚至中性粒细胞。此外,动物实验已经概述了这些受体及其配体的功能作用。趋化因子通过7个跨膜g蛋白偶联受体传递信号,由于设计小分子抑制剂的可能性,这些受体是制药行业青睐的靶标。事实上,这个家族代表了第一批设计出小分子抑制剂的细胞因子。然而,寻找有效的趋化因子/趋化因子受体拮抗剂并不容易;趋化因子系统的一个特殊特征是具有重叠功能和结合特异性的分子数量,以及由于缺乏物种交叉反应性,难以协调啮齿动物模型中趋化因子的体内生物学功能验证与结合人类受体的拮抗剂的开发。本文综述了在过敏反应中起作用的趋化因子及其受体。本文还讨论了可能成为开发新疗法靶点的相互作用点,以及迄今为止开发用于哮喘治疗的关键趋化因子受体抑制剂的进展。
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