Elhabazi Khadija, Humbert Jean-Paul, Bertin Isabelle, Schmitt Martine, Bihel Frédéric, Bourguignon Jean-Jacques, Bucher Bernard, Becker Jérôme A J, Sorg Tania, Meziane Hamid, Petit-Demoulière Benoit, Ilien Brigitte, Simonin Frédéric
Biotechnologie et Signalisation Cellulaire, UMR 7242 CNRS, Université de Strasbourg, Laboratory of Excellence Medalis, Illkirch, France.
Laboratoire Innovation Thérapeutique, UMR 7200 CNRS, Université de Strasbourg, Laboratory of Excellence Medalis, Illkirch, France.
Neuropharmacology. 2013 Dec;75:164-71. doi: 10.1016/j.neuropharm.2013.07.012. Epub 2013 Aug 2.
Mammalian RF-amide peptides are encoded by five different genes and act through five different G protein-coupled receptors. RF-amide-related peptides-1 and -3, neuropeptides AF and FF, Prolactin releasing peptides, Kisspeptins and RFa peptides are currently considered endogenous peptides for NPFF1, NPFF2, GPR10, GPR54 and GPR103 receptors, respectively. However, several studies suggest that the selectivity of these peptides for their receptors is low and indicate that expression patterns for receptors and their corresponding ligands only partially overlap. In this study, we took advantage of the cloning of the five human RF-amide receptors to systematically examine their affinity for and their activation by all human RF-amide peptides. Binding experiments, performed on membranes from CHO cells expressing GPR10, GPR54 and GPR103 receptors, confirmed their high affinity and remarkable selectivity for their cognate ligands. Conversely, NPFF1 and NPFF2 receptors displayed high affinity for all RF-amide peptides. Moreover, GTPγS and cAMP experiments showed that almost all RF-amide peptides efficiently activate NPFF1 and NPFF2 receptors. As NPFF is known to modulate morphine analgesia, we undertook a systematic analysis in mice of the hyperalgesic and anti morphine-induced analgesic effects of a representative set of endogenous RF-amide peptides. All of them induced hyperalgesia and/or prevented morphine analgesia following intracerebroventricular administration. Importantly, these effects were prevented by administration of RF9, a highly selective NPFF1/NPFF2 antagonist. Altogether, our results show that all endogenous RF-amide peptides display pain-modulating properties and point to NPFF receptors as essential players for these effects.
哺乳动物的RF-酰胺肽由五个不同的基因编码,并通过五个不同的G蛋白偶联受体发挥作用。目前认为,RF-酰胺相关肽-1和-3、神经肽AF和FF、催乳素释放肽、亲吻素和RFa肽分别是NPFF1、NPFF2、GPR10、GPR54和GPR103受体的内源性肽。然而,多项研究表明,这些肽对其受体的选择性较低,且受体及其相应配体的表达模式仅部分重叠。在本研究中,我们利用五种人类RF-酰胺受体的克隆,系统地研究了它们对所有人类RF-酰胺肽的亲和力及其激活情况。在表达GPR10、GPR54和GPR103受体的CHO细胞膜上进行的结合实验,证实了它们对同源配体具有高亲和力和显著的选择性。相反,NPFF1和NPFF2受体对所有RF-酰胺肽均表现出高亲和力。此外,GTPγS和cAMP实验表明,几乎所有RF-酰胺肽都能有效激活NPFF1和NPFF2受体。由于已知NPFF可调节吗啡镇痛作用,我们对一组具有代表性的内源性RF-酰胺肽在小鼠体内的痛觉过敏和抗吗啡诱导的镇痛作用进行了系统分析。脑室内注射后,所有这些肽均诱导痛觉过敏和/或阻止吗啡镇痛。重要的是,给予高选择性NPFF1/NPFF2拮抗剂RF9可预防这些作用。总之,我们的结果表明,所有内源性RF-酰胺肽均具有疼痛调节特性,并表明NPFF受体是这些作用的关键参与者。
