Dept. Pharmacology, Grünenthal Innovation, Grünenthal GmbH, Aachen, Germany.
Dept. Pharmacology, Grünenthal Innovation, Grünenthal GmbH, Aachen, Germany.
Neuropharmacology. 2018 Feb;129:100-108. doi: 10.1016/j.neuropharm.2017.11.026. Epub 2017 Nov 16.
The novel potent analgesic cebranopadol is an agonist at nociceptin/orphanin FQ peptide (NOP) and classical opioid receptors, with the highest in-vitro activity at NOP and mu-opioid peptide (MOP) receptors, and somewhat lower activity at kappa-opioid peptide (KOP) and delta-opioid peptide (DOP) receptors. We addressed the question of which of these pharmacological activities contribute to the stimulus properties of cebranopadol using a rat drug discrimination procedure. First, cebranopadol was tested in generalization tests against a morphine cue, including receptor-specific antagonism. Second, cebranopadol was established as a cue, and MOP, NOP, KOP and DOP receptor-selective agonists were tested in generalization tests. Third, cebranopadol in combination with receptor-selective antagonists was tested against the cebranopadol cue. Cebranopadol generalized to the morphine cue. Full generalization was only seen at clearly supra-analgesic doses. The effect of cebranopadol was reduced by naloxone, but was enhanced by the NOP receptor antagonist J-113397. In cebranopadol-trained rats, cebranopadol as well as morphine produced generalization. A NOP receptor agonist did not, while a DOP receptor agonist and a KOP receptor agonist weakly generalized to the cebranopadol cue. Conversely, generalization of cebranopadol was reduced by naloxone and J-113397, but not by a DOP or a KOP receptor antagonist. These results suggest a contribution of MOP receptor activity and a relative lack of contribution of DOP and KOP receptor activity to cebranopadol's stimulus properties. The findings regarding the contribution of NOP receptor activity were equivocal, but interestingly, the morphine-like stimulus property of cebranopadol appears to be reduced by its intrinsic NOP receptor activity.
新型强效镇痛药塞来昔布是孤啡肽/孤啡肽 FQ 肽(NOP)和经典阿片受体的激动剂,在 NOP 和 μ 阿片肽(MOP)受体中的体外活性最高,在 κ 阿片肽(KOP)和 δ 阿片肽(DOP)受体中的活性略低。我们使用大鼠药物辨别程序来解决塞来昔布的这些药理学活性中哪些有助于其刺激特性的问题。首先,在包括受体特异性拮抗作用的概括测试中测试了塞来昔布对吗啡线索的作用。其次,建立了塞来昔布作为线索,然后在概括测试中测试了 MOP、NOP、KOP 和 DOP 受体选择性激动剂。第三,用受体选择性拮抗剂测试了塞来昔布与塞来昔布线索的组合。塞来昔布概括为吗啡线索。只有在明显超镇痛剂量下才能看到完全概括。塞来昔布的作用被纳洛酮降低,但被 NOP 受体拮抗剂 J-113397 增强。在接受塞来昔布训练的大鼠中,塞来昔布和吗啡都产生了概括。NOP 受体激动剂没有,而 DOP 受体激动剂和 KOP 受体激动剂则弱地概括为塞来昔布线索。相反,纳洛酮和 J-113397 降低了塞来昔布的概括,而 DOP 或 KOP 受体拮抗剂则没有。这些结果表明 MOP 受体活性的贡献以及 DOP 和 KOP 受体活性的相对缺乏对塞来昔布刺激特性的贡献。关于 NOP 受体活性贡献的发现存在争议,但有趣的是,塞来昔布的吗啡样刺激特性似乎与其内在的 NOP 受体活性有关。
