UNLABELLED:The objective of the present study was to investigate whether the endogenous opioids are involved in the control of endothelin-1 release from the pituitary gland. To test this hypothesis we have measured the peripheral plasma concentration of ET-1 as well as the content of immunoreactive ET-1 (irET-1) in the pituitary in response to opioid receptors blockade in euhydrated and 24 h water-deprived Wistar-Kyoto rats. Placebo or naltrexone (50 micrograms/kg body wt.) were given i.v. in both groups. Trunk blood was collected to determine hematocrit, plasma sodium and ET-1 levels (RIA). Immunostaining of ET-1 in the whole pituitary glands was performed by colloidal gold labeling. The quantitative analysis of irET-1 was carried out under a light microscope using a computerized image analyzer (MultiScan). RESULTS:(1) Twenty-four-hour dehydration resulted in marked increase of peripheral concentration of ET-1. Naltrexone injection induced a significant elevation of ET-1 plasma concentration in both, dehydrated and control animals. (2) The content of irET-1 in anterior and intermediate lobes of the pituitary in dehydrated rats was markedly higher than in control group. (3) Naltrexone injection caused a rapid and significant reduction irET-1 within the anterior, intermediate and posterior lobes in dehydrated and control animals. CONCLUSIONS:(1) An elevation of irET-1 in the pituitary gland and peripheral circulation in dehydrated animals may play a role in maintaining of water-electrolyte balance. (2) The mu-opioid system appears to control the ET-1 release from the pituitary in normal and dehydrated animals.

译文

未标记:本研究的目的是调查内源性阿片类药物是否参与垂体中内皮素-1的释放。为了验证这一假设,我们测量了在无水和缺水24小时的Wistar-Kyoto中阿片受体阻滞后,垂体中ET-1的血浆浓度以及垂体中免疫反应性ET-1(irET-1)的含量。大鼠。静脉注射安慰剂或纳曲酮(50微克/千克体重)。在两组中。收集躯干血液以确定血细胞比容,血浆钠和ET-1水平(RIA)。 ET-1在整个垂体中的免疫染色是通过胶体金标记进行的。使用计算机图像分析仪(MultiScan)在光学显微镜下对irET-1进行定量分析。
结果:(1)脱水24小时导致ET-1的外周血浓度明显升高。纳曲酮注射液在脱水和对照动物中均引起ET-1血浆浓度的显着升高。 (2)脱水大鼠垂体前叶和中间叶中irET-1的含量明显高于对照组。 (3)纳曲酮注射液导致脱水和对照动物的前叶,中叶和后叶内irET-1迅速大量降低。
结论:(1)脱水动物垂体中irET-1的升高和外周循环可能在维持水电解质平衡中起着重要作用。 (2)在正常和脱水动物中,μ阿片样物质系统似乎可以控制ET-1从垂体的释放。

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