Roszczyk Magdalena, Juszczak Marlena
Endokrynol Pol. 2014;65(2):125-31. doi: 10.5603/EP.2014.0018.
Previous in vivo and in vitro studies have shown that melatonin changes vasopressin (AVP) and oxytocin (OT) secretion from the rat neurohypophysis. Additionally, melatonin is known to inhibit the forskolin-induced (forskolin is a strong adenylyl cyclase - AC activator) increase in cAMP accumulation in the rat pituitary. To determine whether the possible response of vasopressinergic and/or oxytocinergic neurones to melatonin could be mediated through a cAMP-dependent mechanism, the effect of different concentrations of melatonin (i.e. 10-11, 10-9, 10-7, 10-5 and 10-3 M) on forskolin-stimulated AVP and OT release from the rat hypothalamo-neurohypophysial (H-NH) system was studied in vitro.
Male rats served as donors of the H-NH explants, which were placed in 1 mLof normal Krebs-Ringer fluid (nKRF), heated to 37oC and constantly gassed with carbogen (95% O2 and 5% CO2). The H-NH explants were incubated successively in nKRF {fluid B1} and incubation fluid as B1 enriched with an appropriate concentration of melatonin, i.e. 10-11 - 10-3 M and/or forskolin (at a concentration of 10-5 M) or their vehicles (0.1% ethanol or DMSO) {fluid B2}. After 20 min incubation in fluid B1 and next B2, the media were collected and immediately frozen before AVP and OT estimation by the RIA. The AVP and OT secretion was determined by using B2/B1 ratio for each H-NH explant.
We have demonstrated that the highly effective AC activator - forskolin significantly stimulated both AVP and OT release from isolated rat H-NH system. Such an effect of forskolin was reduced by melatonin at concentrations of 10-9, 10-7 and 10-5 M. The strongest effect was exerted by this hormone at a concentration of 10-7 M, which inhibited not only forskolin-stimulated, but also basal, AVP and OT release. On the contrary, the highest studied concentration (i.e. 10-3 M) of melatonin stimulated both AVP and OT basal release, but when forskolin was present in the medium melatonin at such a concentration remained inactive in modifying these hormones release from the H-NH system in vitro.
Our present results demonstrate that in the male rat: 1. The influence of melatonin on the vasopressinergic and oxytocinergic neurones activity is mediated partly through a cAMP-dependent mechanism. 2. The effect of melatonin in this respect depends on its concentration.
先前的体内和体外研究表明,褪黑素会改变大鼠神经垂体中血管加压素(AVP)和催产素(OT)的分泌。此外,已知褪黑素可抑制福斯可林(一种强效的腺苷酸环化酶 - AC激活剂)诱导的大鼠垂体中cAMP积累的增加。为了确定血管加压素能和/或催产素能神经元对褪黑素的可能反应是否可通过cAMP依赖性机制介导,研究了不同浓度的褪黑素(即10-11、10-9、10-7、10-5和10-3 M)对福斯可林刺激的大鼠下丘脑 - 神经垂体(H-NH)系统中AVP和OT释放的体外影响。
雄性大鼠作为H-NH外植体的供体,将其置于1 mL加热至37°C并持续用混合气(95% O2和5% CO2)充气的正常 Krebs-Ringer 液(nKRF)中。H-NH外植体先后在nKRF{液体B1}和富含适当浓度褪黑素(即10-11 - 10-3 M)和/或福斯可林(浓度为10-5 M)或其溶剂(0.1%乙醇或二甲基亚砜)的B1培养液{液体B2}中孵育。在液体B1中孵育20分钟后再在B2中孵育后,收集培养基并立即冷冻,然后通过放射免疫分析法测定AVP和OT。通过计算每个H-NH外植体的B2/B1比值来确定AVP和OT的分泌。
我们已经证明,高效的AC激活剂 - 福斯可林显著刺激了分离的大鼠H-NH系统中AVP和OT的释放。褪黑素在浓度为10-9、10-7和10-5 M时可降低福斯可林的这种作用。该激素在浓度为10-7 M时作用最强,它不仅抑制福斯可林刺激的AVP和OT释放,还抑制基础AVP和OT释放。相反,所研究的最高浓度(即10-3 M)的褪黑素刺激了AVP和OT的基础释放,但当培养基中存在福斯可林时,该浓度的褪黑素在体外对H-NH系统中这些激素的释放没有影响。
我们目前的结果表明,在雄性大鼠中:1. 褪黑素对血管加压素能和催产素能神经元活性的影响部分通过cAMP依赖性机制介导。2. 褪黑素在这方面的作用取决于其浓度。
