López F J, Merchenthaler I, Ching M, Wisniewski M G, Negro-Vilar A
Reproductive Neuroendocrinology, Section, National Institute of Environmental Health Sciences, Research Triangle Park, NC 27709.
Proc Natl Acad Sci U S A. 1991 May 15;88(10):4508-12. doi: 10.1073/pnas.88.10.4508.
Galanin (GAL) is widely distributed in the peripheral and the central nervous systems. In the brain, the highest GAL concentrations are observed within the hypothalamus and, particularly, in nerve terminals of the median eminence. This location, as well as GAL actions on prolactin, growth hormone, luteinizing hormone (LH), and LH-releasing hormone (LHRH) secretion, suggest the possibility that GAL may act as a putative hypothalamic-hypophysiotropic hormone. To establish this, GAL and LHRH levels were measured in hypophyseal portal plasma samples using specific radioimmunoassays. Rat galanin (rGAL) concentrations in portal blood were approximately 7-fold higher than those observed in peripheral plasma in male and female (estrus, diestrus) rats, indicating an active secretory process of rGAL into the portal vasculature. Frequent (10 min) sampling revealed that rGAL and LHRH were secreted into the portal circulation in a pulsatile manner with a pulse frequency of one pulse per hour. Interestingly, both hormone series depicted a high degree of coincident episodes. In fact, the probability of random coincidence, calculated by the algorithm HYPERGEO, was less than 0.01. Moreover, the retrograde tracer Fluoro-Gold, when given systemically, was taken up by GAL neurons in the hypothalamus, including a subset of neurons expressing rGAL and LHRH, strengthening the notion of the existence of a GAL neuronal system connected to the hypophyseal portal circulation. These observations reinforce the concept that GAL regulates pituitary hormone secretion. To analyze this in further detail, the effects of rGAL on LH secretion were evaluated under basal and stimulated conditions. rGAL induced a small but dose-dependent increase in LH secretion from cultured, dispersed pituitary cells. Interestingly, rGAL enhanced the ability of LHRH to stimulate LH release. The tight link between GAL and LHRH neuronal systems is strengthened by the observation that during the estrous cycle of the rat, rGAL and LHRH contents in the median eminence show an identical profile (r = 1.00). These data indicate that GAL should be considered as a hypothalamic-hypophysiotropic hormone and as an important neuromodulator of LHRH secretion and action. The colocalization and cosecretion of GAL and LHRH and the cooperative action at the level of the anterior pituitary afford important evidence for the functional significance of coexistence of neurotransmitters in neurons of the central nervous system.
甘丙肽(GAL)广泛分布于外周和中枢神经系统。在大脑中,下丘脑内,尤其是正中隆起的神经末梢中,甘丙肽浓度最高。这一位置以及甘丙肽对催乳素、生长激素、促黄体生成素(LH)和促黄体生成素释放激素(LHRH)分泌的作用,提示甘丙肽可能作为一种假定的下丘脑 - 垂体促激素发挥作用。为证实这一点,使用特异性放射免疫分析法测定了垂体门脉血浆样本中的甘丙肽和LHRH水平。雄性和雌性(发情期、间情期)大鼠门脉血中的大鼠甘丙肽(rGAL)浓度比外周血浆中观察到的浓度高约7倍,表明rGAL向门脉血管系统有活跃的分泌过程。频繁(每10分钟)采样显示,rGAL和LHRH以每小时一个脉冲的脉冲频率呈脉冲式分泌到门脉循环中。有趣的是,两个激素系列都呈现出高度一致的脉冲事件。事实上,通过HYPERGEO算法计算的随机巧合概率小于0.01。此外,全身给予逆行示踪剂氟金后,下丘脑的甘丙肽神经元,包括表达rGAL和LHRH的一部分神经元摄取了该示踪剂,强化了存在与垂体门脉循环相连的甘丙肽神经元系统这一概念。这些观察结果强化了甘丙肽调节垂体激素分泌的概念。为进一步详细分析这一点,在基础和刺激条件下评估了rGAL对LH分泌的影响。rGAL诱导培养的分散垂体细胞分泌LH出现小幅度但剂量依赖性的增加。有趣的是,rGAL增强了LHRH刺激LH释放的能力。在大鼠发情周期中,正中隆起处的rGAL和LHRH含量呈现相同的变化趋势(r = 1.00),这一观察结果强化了甘丙肽和LHRH神经元系统之间的紧密联系。这些数据表明,甘丙肽应被视为一种下丘脑 - 垂体促激素以及LHRH分泌和作用的重要神经调节剂。甘丙肽和LHRH的共定位、共分泌以及在前脑垂体水平的协同作用,为中枢神经系统神经元中神经递质共存的功能意义提供了重要证据。