Zandawala Meet, Tian Shi, Elphick Maurice R
Stockholm University, Department of Zoology, Stockholm, Sweden.
Queen Mary University of London, School of Biological & Chemical Sciences, Mile End Road, London E1 4NS, UK.
Gen Comp Endocrinol. 2018 Aug 1;264:64-77. doi: 10.1016/j.ygcen.2017.06.007. Epub 2017 Jun 13.
Gonadotropin-releasing hormone (GnRH) was first discovered in mammals on account of its effect in triggering pituitary release of gonadotropins and the importance of this discovery was recognized forty years ago in the award of the 1977 Nobel Prize for Physiology or Medicine. Investigation of the evolution of GnRH revealed that GnRH-type signaling systems occur throughout the chordates, including agnathans (e.g. lampreys) and urochordates (e.g. sea squirts). Furthermore, the discovery that adipokinetic hormone (AKH) is the ligand for a GnRH-type receptor in the arthropod Drosophila melanogaster provided evidence of the antiquity of GnRH-type signaling. However, the occurrence of other AKH-like peptides in arthropods, which include corazonin and AKH/corazonin-related peptide (ACP), has complicated efforts to reconstruct the evolutionary history of this family of related neuropeptides. Genome/transcriptome sequencing has revealed that both GnRH-type receptors and corazonin-type receptors occur in lophotrochozoan protostomes (annelids, mollusks) and in deuterostomian invertebrates (cephalochordates, hemichordates, echinoderms). Furthermore, peptides that act as ligands for GnRH-type and corazonin-type receptors have been identified in mollusks. However, what has been lacking is experimental evidence that distinct GnRH-type and corazonin-type peptide-receptor signaling pathways occur in deuterostomes. Importantly, we recently reported the identification of two neuropeptides that act as ligands for either a GnRH-type receptor or a corazonin-type receptor in an echinoderm species - the common European starfish Asterias rubens. Discovery of distinct GnRH-type and corazonin-type signaling pathways in this deuterostomian invertebrate has demonstrated for the first time that the evolutionarily origin of these paralogous systems can be traced to the common ancestor of protostomes and deuterostomes. Furthermore, lineage-specific losses of corazonin signaling (in vertebrates, urochordates and nematodes) and duplication of the GnRH signaling system in arthropods (giving rise to the AKH and ACP signaling systems) and quadruplication of the GnRH signaling system in vertebrates (followed by lineage-specific losses or duplications) accounts for the phylogenetic distribution of GnRH/corazonin-type peptide-receptor pathways in extant animals. Informed by these new insights, here we review the history of research on the evolution of GnRH/corazonin-type neuropeptide signaling. Furthermore, we propose a standardized nomenclature for GnRH/corazonin-type neuropeptides wherein peptides are either named "GnRH" or "corazonin", with the exception of the paralogous GnRH-type peptides that have arisen by gene duplication in the arthropod lineage and which are referred to as "AKH" (or red pigment concentrating hormone, "RCPH", in crustaceans) and "ACP".
促性腺激素释放激素(GnRH)最初是在哺乳动物中发现的,因其能触发垂体释放促性腺激素,这一发现的重要性在四十年前被认可,当年颁发了1977年诺贝尔生理学或医学奖。对GnRH进化的研究表明,GnRH型信号系统存在于整个脊索动物中,包括无颌类动物(如七鳃鳗)和尾索动物(如海鞘)。此外,在节肢动物黑腹果蝇中发现脂肪动激素(AKH)是GnRH型受体的配体,这为GnRH型信号的古老性提供了证据。然而,节肢动物中其他类似AKH的肽的存在,包括促心肽和AKH/促心肽相关肽(ACP),使重建这一相关神经肽家族进化史的工作变得复杂。基因组/转录组测序显示,GnRH型受体和促心肽型受体都存在于冠轮动物原口动物(环节动物、软体动物)和后口动物无脊椎动物(头索动物、半索动物、棘皮动物)中。此外,在软体动物中已鉴定出作为GnRH型和促心肽型受体配体的肽。然而,一直缺乏实验证据表明在后口动物中存在不同的GnRH型和促心肽型肽 - 受体信号通路。重要的是,我们最近报告在一种棘皮动物——欧洲常见海星(Asterias rubens)中鉴定出两种神经肽,它们分别作为GnRH型受体或促心肽型受体的配体。在这种后口动物无脊椎动物中发现不同的GnRH型和促心肽型信号通路,首次证明了这些旁系同源系统的进化起源可以追溯到原口动物和后口动物的共同祖先。此外,促心肽信号在脊椎动物、尾索动物和线虫中的谱系特异性丧失,以及节肢动物中GnRH信号系统的复制(产生AKH和ACP信号系统)和脊椎动物中GnRH信号系统的四倍化(随后是谱系特异性丧失或复制),解释了GnRH/促心肽型肽 - 受体通路在现存动物中的系统发育分布。基于这些新见解,我们在此回顾GnRH/促心肽型神经肽信号进化的研究历史。此外,我们提出了一种GnRH/促心肽型神经肽的标准化命名法,其中肽要么命名为“GnRH”,要么命名为“促心肽”,但节肢动物谱系中通过基因复制产生的旁系同源GnRH型肽除外,它们被称为“AKH”(或甲壳类动物中的红色素聚集激素,“RCPH”)和“ACP”。
