Dept. of Pharmacology and Toxicology, Univ. of Utah, 30 South 2000 East, Rm 201, Salt Lake City, UT 84112, USA.
Am J Physiol Regul Integr Comp Physiol. 2010 Aug;299(2):R452-8. doi: 10.1152/ajpregu.00217.2010. Epub 2010 Jun 16.
When released from dendrites within the supraoptic (SON) and paraventricular (PVN) nuclei (intranuclear release) during suckling, oxytocin exerts autocrine and paracrine effects on oxytocin neurons that are necessary for the unique timing and episodic pattern of oxytocin release into the systemic circulation that is characteristic of lactation. Recent reports have shown that stimulation of central noradrenergic and histaminergic receptors are both necessary for intranuclear release of oxytocin in response to suckling. In addition, in vitro studies indicate that excitatory amino acids may also be critical for central oxytocin secretion, although in vivo experiments have not provided direct support for this hypothesis. In addition to a critical role in intranuclear oxytocin release during lactation, norepinephrine has also been shown to stimulate central oxytocin during gestation. Stimulation of central oxytocin receptors during gestation appears critical for normal systemic oxytocin secretion in responses to suckling during the subsequent period of lactation. Oxytocin receptor blockade during pregnancy alters normal timing of systemic oxytocin release during suckling and reduces milk delivery. Several adaptations occur in the central oxytocin system that are necessary for determining the unique response characteristic observed during parturition and gestation. Central oxytocin receptor stimulation during gestation has been implicated in pregnancy-related morphological changes in magnocellular oxytocin neurons, disinhibition of oxytocin neurons to GABA, and adaptations in membrane response characteristics of oxytocin neurons. In conclusion, intranuclear oxytocin release during gestation and lactation are critical for establishing, and then evoking the unique pattern of systemic oxytocin secretion in response to the suckling offspring necessary for adequate milk delivery. Furthermore, activation of central noradrenergic receptors appears to be critical for release of central oxytocin in both of these reproductive states.
在哺乳期吸吮过程中,催产素从视上核(SON)和室旁核(PVN)内的神经元中释放(核内释放),对催产素神经元发挥自分泌和旁分泌作用,这对于催产素进入体循环的独特时间和阵发性释放模式是必要的,而这种释放模式是哺乳的特征。最近的报告显示,刺激中枢去甲肾上腺素能和组胺能受体对于吸吮引起的核内催产素释放都是必要的。此外,体外研究表明,兴奋性氨基酸对于中枢催产素分泌也可能是至关重要的,尽管体内实验并没有为这一假说提供直接支持。除了在哺乳期核内催产素释放中起关键作用外,去甲肾上腺素也被证明在妊娠期间刺激中枢催产素。在妊娠期间刺激中枢催产素受体对于在随后的哺乳期中对吸吮的正常全身催产素分泌反应似乎是至关重要的。在妊娠期间阻断催产素受体改变了对吸吮的全身催产素释放的正常时间,并减少了乳汁分泌。在中枢催产素系统中发生了几种适应,这对于确定在分娩和妊娠期间观察到的独特反应特征是必要的。在妊娠期间刺激中枢催产素受体已被牵连到与妊娠相关的大细胞催产素神经元的形态变化、对 GABA 的催产素神经元去抑制以及催产素神经元膜反应特性的适应。总之,在妊娠和哺乳期期间的核内催产素释放对于建立和引发对吸吮后代的全身催产素分泌的独特模式是至关重要的,这种独特模式对于充足的乳汁分泌是必要的。此外,在这两种生殖状态下,中枢去甲肾上腺素能受体的激活似乎对于中枢催产素的释放都是至关重要的。