Kriegsfeld L J, Silver R, Gore A C, Crews D
Department of Psychology, Columbia University, New York, NY, USA.
J Neuroendocrinol. 2002 Sep;14(9):685-90. doi: 10.1046/j.1365-2826.2002.00818.x.
Successful reproduction requires precise temporal coordination among various endocrine and behavioural events. The circadian system regulates daily temporal organization in behaviour and physiology, including neuroendocrine rhythms. The main circadian pacemaker in mammals is located in the suprachiasmatic nuclei (SCN) of the anterior hypothalamus. The SCN sends direct efferents to the reproductive axis via monosynaptic projections to gonadotropin-releasing hormone (GnRH) neurones. This communication generates circadian endocrine rhythms as well as the preovulatory luteinizing hormone (LH) surge necessary for successful ovulation. One SCN peptide thought to be important for the regulation of oestrous cycles is vasoactive intestinal polypeptide (VIP). VIP neurones from the SCN contact GnRH cells, and these cells are preferentially activated during an LH surge in rats. Unlike adult rats, prepubertal females do not exhibit oestrous cycles, nor do they exhibit an LH surge in response to oestradiol positive-feedback. The present study was undertaken to determine the extent to which the development of a 'mature' reproductive axis in female rats is associated with modifications in VIP contacts on GnRH neurones. The brains of diestrus adult (approximately 60 days of age) and prepubertal (21 days of age) female rats were examined using double-label fluorescence immunohistochemistry for VIP and GnRH, with light and confocal microscopy. Although the total number of GnRH-immunoreactive neurones did not differ between adult and prepubertal females, adults had a significant increase in the percentage of GnRH cells receiving VIP contacts compared to juveniles. These data suggest that the development of reproductive hormone rhythms and oestrous cyclicity may be, in part, due to modifications of VIP input to the GnRH system.
成功繁殖需要各种内分泌和行为事件之间精确的时间协调。昼夜节律系统调节行为和生理中的日常时间组织,包括神经内分泌节律。哺乳动物的主要昼夜节律起搏器位于下丘脑前部的视交叉上核(SCN)。SCN通过单突触投射到促性腺激素释放激素(GnRH)神经元,将直接传出纤维发送到生殖轴。这种通讯产生昼夜内分泌节律以及成功排卵所需的排卵前促黄体生成素(LH)激增。一种被认为对发情周期调节很重要的SCN肽是血管活性肠肽(VIP)。来自SCN的VIP神经元与GnRH细胞接触,并且这些细胞在大鼠LH激增期间被优先激活。与成年大鼠不同,青春期前的雌性大鼠既不表现出发情周期,也不会对雌二醇的正反馈表现出LH激增。本研究旨在确定雌性大鼠“成熟”生殖轴的发育在多大程度上与GnRH神经元上VIP接触的改变有关。使用VIP和GnRH的双标记荧光免疫组织化学以及光学和共聚焦显微镜检查了处于动情间期的成年(约60日龄)和青春期前(21日龄)雌性大鼠的大脑。尽管成年和青春期前雌性大鼠中GnRH免疫反应性神经元的总数没有差异,但与幼年大鼠相比,成年大鼠中接受VIP接触的GnRH细胞百分比显著增加。这些数据表明,生殖激素节律和发情周期的发展可能部分归因于VIP对GnRH系统输入的改变。