Orphan seven transmembrane receptor screening.

M J Wigglesworth, L A Wolfe, A Wise
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引用次数: 11

Abstract

Drug discovery has successfully exploited the superfamily of seven transmembrane receptors (7TMR), with over 35% of clinically marketed drugs targeting them. However, it is clear that there remains an undefined potential within this protein family for successful drugs of the future. The human genome sequencing project identified approximately 720 genes that belong to the 7TMR superfamily. Around half of these genes encode sensory receptors, while the other half are potential drug targets. Natural ligands have been identified for approximately 215 of these, leaving 155 receptors classified as orphan 7TMRs having no known ligand. Deorphanisation of these receptors by identification of natural ligands has been the traditional method enabling target validation by use of these ligands as tools to define biological relevance and disease association. Such ligands have been paired with their cognate receptor experimentally by screening of small molecule and peptide ligands, reverse pharmacology and the use of bioinformatics to predict candidate ligands. In this manuscript, we review the methodologies developed for the identification of ligands at orphan 7TMRs and exemplify these with case studies.

孤儿7跨膜受体筛选。
药物发现已经成功地利用了7个跨膜受体(7TMR)超家族,超过35%的临床上市药物靶向它们。然而,很明显,在这个蛋白质家族中,未来成功药物的潜力仍未确定。人类基因组测序项目确定了大约720个基因属于7TMR超家族。这些基因中大约有一半编码感觉受体,而另一半是潜在的药物靶点。其中215个受体已被鉴定为天然配体,其余155个受体被归类为孤儿7tmr,没有已知的配体。通过鉴定天然配体来实现这些受体的去孤儿化一直是传统的方法,通过使用这些配体作为确定生物相关性和疾病关联的工具来实现靶标验证。通过小分子和多肽配体的筛选、反向药理学以及生物信息学预测候选配体,对这些配体与同源受体进行了实验配对。在这篇手稿中,我们回顾了孤儿7tmr配体鉴定的方法,并举例说明了这些案例研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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