神经内分泌细胞活动的调节机制:促黄体生成素释放激素脉冲发生器
Modulating mechanisms of neuroendocrine cell activity: the LHRH pulse generator.
作者信息
López F J, Merchenthaler I J, Moretto M, Negro-Vilar A
机构信息
Women's Health Research Institute, Wyeth-Ayerst Research, Radnor, Pennsylvania 19087, USA.
出版信息
Cell Mol Neurobiol. 1998 Feb;18(1):125-46. doi: 10.1023/a:1022531411717.
Abstract
- Luteinizing hormone-releasing hormone (LHRH), synthesized in specialized neurons in the hypothalamus, is the prime regulator of reproduction. In its absence, reproductive development is arrested and disorders of LHRH secretion result in several reproductive dysfunctions. 2. The LHRH neuronal network plays a paramount role in the regulatory loop controlling gonadal homeostasis. LHRH input to the pituitary gland maintains gonadotropin secretion, which, in turn, is responsible for gonadal trophism. Steroidal and peptidergic hormones from the gonad close the regulatory system by establishing negative (male and females) and positive (females) feedback loops. 3. Interestingly, LHRH input to the pituitary is intermittent rather than continuous. In fact, continuous exposure to LHRH results in paradoxical hypogonadism. Several studies in animals have provided direct evidence for episodic secretion of LHRH into the hypophyseal portal system. However, the nature of the system(s) responsible for the generation of the LHRH pulsatile profile is not currently known. The recent observation that immortalized LHRH neurons secrete LHRH in a pulsatile manner suggests that the pulse generating mechanism resides within the LHRH neuronal network. 4. In this overview, we compile several lines of evidence supporting this notion and put this characteristic of LHRH neurons in perspective with gonadal influences both internal and external to the LHRH neuronal network. Some recent data regarding the site of action of gonadal steroids on the LHRH neuronal system, the functional significance of galanin colocalization with LHRH, and the role of nitric oxide in the pulse generating mechanism are also discussed.
摘要
- 促黄体生成激素释放激素(LHRH)在下丘脑的特殊神经元中合成,是生殖的主要调节因子。缺乏LHRH时,生殖发育会停滞,LHRH分泌紊乱会导致多种生殖功能障碍。2. LHRH神经元网络在控制性腺稳态的调节环路中起着至关重要的作用。LHRH输入垂体维持促性腺激素分泌,而促性腺激素又负责性腺营养。性腺分泌的甾体和肽类激素通过建立负反馈(男性和女性)和正反馈(女性)环路来闭合调节系统。3. 有趣的是,LHRH输入垂体是间歇性的而非连续性的。事实上,持续暴露于LHRH会导致矛盾性性腺功能减退。动物的多项研究为LHRH向垂体门脉系统的脉冲式分泌提供了直接证据。然而,目前尚不清楚负责产生LHRH脉冲式分泌模式的系统的性质。最近关于永生化LHRH神经元以脉冲方式分泌LHRH的观察表明,脉冲产生机制存在于LHRH神经元网络中。4. 在本综述中,我们汇集了几条支持这一观点的证据,并结合LHRH神经元网络内外的性腺影响来审视LHRH神经元的这一特性。还讨论了关于性腺甾体在LHRH神经元系统上的作用位点、甘丙肽与LHRH共定位的功能意义以及一氧化氮在脉冲产生机制中的作用的一些最新数据。
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