International Cancer Laboratory Co., Ltd, Chuo-ku, Tokyo, 104-0041, Japan.
Cell Tissue Res. 2023 Jan;391(1):159-172. doi: 10.1007/s00441-022-03695-w. Epub 2022 Nov 10.
RFamide-related peptide (RFRP) is a homologous neuropeptide to gonadotropin-inhibitory hormone (GnIH), which is a hypothalamic neuropeptide that negatively regulates the hypothalamic-pituitary-gonadal axis. RFRP/GnIH is thought to be the mediator of stress because various stressors increase RFRP/GnIH mRNA expression and/or RFRP/GnIH neuronal activities. RFRP/GnIH may also directly regulate behavior, because RFRP/GnIH neuronal fibers and RFRP/GnIH receptor are widely expressed in the brain. Here, we create a RFRP/GnIH knockout (GnIH-KO) mice and conduct various behavioral tests. Dense RFRP/GnIH neuronal fibers are located in the limbic system and broad areas in the thalamus, hypothalamus, and midbrain in wild-type mice but not in RFRP/GnIH-KO mice. Spatial working memory is not improved in GnIH-KO mice as shown by Y-maze test. GnIH-KO mice perform intensive wheel running exercise for several hours after light-off. Hot plate test shows that GnIH-KO mice have decreased sensitivity to pain and central administration of RFRP3 to GnIH-KO mice recovers pain sensitivity. Elevated plus maze test shows that GnIH-KO mice have decreased level of anxiety and central administration of RFRP3 to GnIH-KO mice recovers anxiety level. These results indicate that RFRP3 regulates pain and anxiety in mice. RFRP3 may be involved in the negative regulation of spontaneous activity in addition to negatively regulating the reproductive neuroendocrine axis in stressful conditions.
促性腺激素抑制激素相关肽(RFRP)是一种与促性腺激素抑制激素(GnIH)同源的神经肽,GnIH 是一种下丘脑神经肽,可负调控下丘脑-垂体-性腺轴。RFRP/GnIH 被认为是应激的介质,因为各种应激源会增加 RFRP/GnIH mRNA 的表达和/或 RFRP/GnIH 神经元的活性。RFRP/GnIH 还可能直接调节行为,因为 RFRP/GnIH 神经元纤维和 RFRP/GnIH 受体广泛表达于脑内。在这里,我们创建了 RFRP/GnIH 敲除(GnIH-KO)小鼠,并进行了各种行为测试。在野生型小鼠中,密集的 RFRP/GnIH 神经元纤维位于边缘系统和丘脑、下丘脑和中脑的广泛区域,但在 RFRP/GnIH-KO 小鼠中不存在。Y 型迷宫测试显示,空间工作记忆并未在 GnIH-KO 小鼠中得到改善。GnIH-KO 小鼠在熄灯后会进行数小时的剧烈轮式运动。热板测试显示 GnIH-KO 小鼠对疼痛的敏感性降低,而向 GnIH-KO 小鼠的中枢给予 RFRP3 可恢复其疼痛敏感性。高架十字迷宫测试显示 GnIH-KO 小鼠的焦虑水平降低,而向 GnIH-KO 小鼠的中枢给予 RFRP3 可恢复其焦虑水平。这些结果表明,RFRP3 调节小鼠的疼痛和焦虑。除了在应激条件下负调控生殖神经内分泌轴外,RFRP3 可能还参与了自发活动的负调控。
