作为变构机制的g蛋白偶联受体。

Terry Kenakin
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引用次数: 48

摘要

变构,即小分子配体产生受体构象的全局变化,是药物作用的强大机制。最近的数据将CCR5拮抗剂描述为HIV感染的阻滞剂,说明了这一点。变构效应是根据受体三级构象的变化来描述的。本文概述了变构拮抗剂作为新型药物实体的一些独特特点。这些因素包括:变构配体在拮抗作用中具有结构(并非所有变构阻断受体都是相同的),变构阻断是探针依赖的(并非所有激动剂和放射性配体都被同样阻断),以及变构结合涉及受体上的单独位点,这一事实可能与作用的持续时间和选择性有关。在变构配体中也会遇到受体功能和结合之间的解离。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
G-protein coupled receptors as allosteric machines.

Allosterism, whereby small molecule ligands produce global changes in the conformations of receptors, is a powerful mechanism for drug effect. This is illustrated by the recent data describing CCR5 antagonists as blockers of HIV infection. Allosteric effects are described in terms of a change in the tertiary conformation of the receptor. This paper outlines some unique features of allosteric antagonists as new drug entities. These include the fact that allosteric ligands have texture in antagonism (not all allosterically blocked receptors are alike), allosteric blockade is probe dependent (not all agonists and radioligands are blocked equally), and the fact that allosteric binding involves a separate site on the receptor may have relevance to duration of effect and selectivity. Dissociation between receptor function and binding also can be encountered with allosteric ligands.

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