Melatonin receptors in the spinal cord.

S. Pang, Q. Wan, Gregory M. Brown
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引用次数: 32

Abstract

The pineal hormone, melatonin, plays an important role in the regulation of diurnal and seasonal rhythms in animals. In addition to the well established actions on the brain, the possibility of a direct melatonin action on the spinal cord has to be considered. In our laboratory, we have obtained data suggesting that melatonin receptors are present in the spinal cords of birds and mammals. Using radioreceptor binding and quantitative autoradiography assays with 2-[125I]iodomelatonin as the specific melatonin agonist, melatonin binding sites have been demonstrated in the rabbit and chicken spinal cords. These sites are saturable, reversible, specific, guanosine nucleotide-sensitive, of picomolar affinity and femtomolar density. The linearity of Scatchard plots of saturation data and the unity of Hill coefficients indicate that a single class of melatonin binding sites is present in the spinal cord membranes studied. The picomolar affinity of these sites is in line with the circulating levels of melatonin in these animals suggesting that these sites are physiologically relevant. Autoradiography studies in the rabbit spinal cord show that melatonin binding sites are localized in the central gray substance (lamina X). In the chicken spinal cord, these binding sites are localized in dorsal gray horns (laminae I-V) and lamina X. As lamina X and laminae I-II have similar functions, melatonin may have comparable roles in the chicken and rabbit spinal cords. Moreover, in the chicken spinal cord, the density of 2-[125I]iodomelatonin binding in the lumbar segment was significantly higher than those of the cervical and thoracic segments. The densities of these binding sites changed with environmental manipulations. When chickens were adapted to a 12L/12D photoperiod and sacrificed at mid-light and mid-dark, there was a significant diurnal variation in the density (maximum number of binding sites; Bmax) of melatonin binding sites in the spinal cord. After constant light treatment or pinealectomy, the Bmax of melatonin receptors in the chicken spinal cord increased significantly in the subjective mid-dark period. Moreover, there was an age-related decrease in the 2-[125I]iodomelatonin binding to the chicken spinal cord. Our results suggest that melatonin receptors in the chicken spinal cord are regulated by environmental lighting and change with development. These receptors may play an important role in the chronobiology of spinal cord function. The biological responses of melatonin on spinal cords have also been demonstrated in vitro. Melatonin decreased the forskolin-stimulated cAMP production in the chicken spinal cord explant. Preincubation with pertussis toxin blocked the melatonin effect. Our results suggest that melatonin receptors in the chicken spinal cord are linked to the adenylate cyclase via a pertussis toxin-sensitive G protein and that melatonin binding sites in spinal cords are melatonin receptors with biological functions. These receptors may be involved in the regulation of spinal cord functions related to sensory transmission, visceral reflexes and autonomic activities.
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脊髓中的褪黑素受体。
松果体激素,褪黑激素,在调节动物的昼夜和季节节律中起着重要作用。除了对大脑的作用外,还必须考虑褪黑素对脊髓的直接作用的可能性。在我们的实验室中,我们获得的数据表明,褪黑激素受体存在于鸟类和哺乳动物的脊髓中。使用2-[125I]碘化褪黑素作为特异性褪黑激素激动剂的放射受体结合和定量放射自显影分析,褪黑激素结合位点已在兔和鸡脊髓中得到证实。这些位点是饱和的,可逆的,特异的,鸟苷核苷酸敏感的,具有小摩尔亲和力和飞摩尔密度。饱和度数据的Scatchard图的线性和Hill系数的统一性表明,在研究的脊髓膜中存在一类褪黑激素结合位点。这些位点的皮摩尔亲和力与这些动物体内褪黑激素的循环水平一致,表明这些位点在生理上是相关的。兔脊髓放射自显影研究表明,褪黑素结合位点位于中央灰色物质(X层),而在鸡脊髓中,这些结合位点位于背灰色角(I-V层)和X层。由于X层和I-II层具有相似的功能,褪黑素在鸡和兔脊髓中可能具有相似的作用。此外,在鸡脊髓中,腰椎节段的2-[125I]碘胺结合密度显著高于颈椎和胸椎节。这些结合位点的密度随环境的变化而变化。当鸡适应12L/12D光周期,并在中光和中暗时牺牲时,密度(最大结合位点数;脊髓中褪黑素结合位点的Bmax)。持续光照或摘除松果体后,鸡脊髓褪黑素受体Bmax在主观暗中期显著升高。此外,与鸡脊髓结合的2-[125I]碘化褪黑素与年龄相关。我们的研究结果表明,鸡脊髓中的褪黑激素受体受环境光照的调节,并随着发育而变化。这些受体可能在脊髓功能的时间生物学中起重要作用。褪黑素对脊髓的生物学反应也已在体外得到证实。褪黑素降低了福斯克林刺激的鸡脊髓外植体cAMP的产生。百日咳毒素的预孵育阻断了褪黑素的作用。我们的研究结果表明,鸡脊髓中的褪黑激素受体通过百日咳毒素敏感的G蛋白与腺苷酸环化酶相连,脊髓中的褪黑激素结合位点是具有生物功能的褪黑激素受体。这些受体可能参与与感觉传递、内脏反射和自主神经活动相关的脊髓功能的调节。
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