蛋白质结构:发现选择性蛋白激酶抑制剂

Sean G. Buchanan
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引用次数: 10

摘要

蛋白激酶超家族是研究最彻底的药物靶点之一,是治疗干预的大量重要靶点。激酶有一个深疏水的ATP结合位点,随着有效的ATP竞争药物的发现,已经成功地利用了这一位点。然而,这个口袋的大多数特征在所有蛋白激酶中都很好地保守,这解释了为什么激酶抑制剂通常表现出相当不加区分的活性谱。描述了与配体结合的各种蛋白激酶的晶体结构,这开始解释观察到的激酶抑制剂的选择性概况。从这些结构中获得的见解提出了几种提高抑制剂特异性的方法,并对这些方法进行了总结。新的高通量方法在结构测定中的令人兴奋的潜力,使系统的原子分辨率研究大量抑制剂结合到他们的各种激酶目标将被讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Protein structure: discovering selective protein kinase inhibitors

A plethora of important targets for therapeutic intervention occurs in the protein kinase superfamily, one of the most thoroughly investigated groups of drug targets. Kinases have a deep hydrophobic ATP binding site that has been successfully exploited with the discovery of potent ATP-competitive drugs. However, most features of this pocket are well conserved in all protein kinases, which explains why kinase inhibitors typically exhibit a fairly indiscriminate spectrum of activity. Crystal structures of various protein kinases bound to their ligands are described, which begin to explain the observed selectivity profiles of kinase inhibitors. The insights gained from these structures suggest several approaches to improve inhibitor specificity and these approaches are summarized. The exciting potential of new high-throughput methods in structure determination that enable the systematic atomic-resolution investigation of large numbers of inhibitors bound to their various kinase targets will be discussed.

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