Reverse physiology: discovery of the novel neuropeptide, orphanin FQ/nociceptin.

O Civelli, H P Nothacker, R Reinscheid
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引用次数: 54

Abstract

The search for novel neurotransmitters and neuropeptides has been recently revolutionized by the development of a purification strategy based on orphan G protein-coupled receptors, cloned receptors for which no natural ligands are known. This strategy uses the orphan receptor as bait to identify its natural ligand. This article will review the discovery of the first natural ligand isolated following this strategy. This ligand is a peptide that shares some striking sequence similarity to the opioid peptides and has been named Orphanin FQ or Nociceptin (OFQ/NOC). The discovery of OFQ/NOC will be described as one example of the use of orphan receptors in identifying novel neurotransmitters and neuropeptides, an example that has already been followed in the identification of other novel neuropeptides. After reviewing the conceptual and technological basis of the strategy and its successful first application, we discuss the criteria used to validate OFQ/NOC as the natural ligand of the orphan receptor and as a genuine neuropeptide. We also discuss the importance and implications of discovering OFQ/NOC mode of synthesis, which is synthesized as expected in the form of a larger polypeptide precursor, which in turn raises the question of the existence of other OFQ/NOC-related peptides. We then present an overview of the numerous studies that have blossomed after the OFQ/NOC discovery and describe the numerous physiological roles that have already been attributed to OFQ/NOC, and in particular the controversy regarding its involvement in pain perception. Because of the similarities between the OFQ/NOC and opioid systems, we also discuss overlaps between these systems and present evidence favoring a pharmacological separation between these systems. We finish by outlining the power of the orphan receptor strategy and by discussing some of its pitfalls.

反向生理学:发现新型神经肽--孤素 FQ/神经肽。
最近,一种基于孤儿 G 蛋白偶联受体的纯化策略的开发为寻找新型神经递质和神经肽带来了革命性的变化。这种策略利用孤儿受体作为诱饵,以确定其天然配体。本文将回顾根据这一策略分离出的第一个天然配体的发现。这种配体是一种多肽,与阿片肽具有惊人的序列相似性,被命名为孤儿素 FQ 或 Nociceptin(OFQ/NOC)。OFQ/NOC 的发现将作为利用孤儿受体鉴定新型神经递质和神经肽的一个范例加以介绍,在鉴定其他新型神经肽时也采用了这一范例。在回顾了该策略的概念和技术基础及其首次成功应用之后,我们讨论了验证 OFQ/NOC 作为孤儿受体的天然配体和真正的神经肽所使用的标准。我们还讨论了发现 OFQ/NOC 合成模式的重要性和意义,OFQ/NOC 是以较大多肽前体的形式合成的,这反过来又提出了存在其他 OFQ/NOC 相关多肽的问题。随后,我们概述了 OFQ/NOC 被发现后开展的大量研究,并介绍了 OFQ/NOC 的众多生理作用,特别是有关其参与痛觉的争议。由于 OFQ/NOC 和阿片系统之间的相似性,我们还讨论了这两个系统之间的重叠之处,并提出了支持在这两个系统之间进行药理学分离的证据。最后,我们概述了孤儿受体策略的威力,并讨论了它的一些缺陷。
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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