Effects of melatonin and natural and synthetic analogues of arginine vasotocin on plasma prolactin levels in adult male rats

A significant elevation in plasma prolactin was observed 10 min following the intravenous injection of 100 microgram of melatonin into either estrogen-progesterone (EP) primed or into nonsteroid-treated male rats. 60 min postinjection in the EP primed rat, the groups treated with 100 microgram or 10 mg of melatonin had signficantly elevated plasma prolactin levels while no effect was observed with these same doses in the nonsteroid-treated rats. Compared to diluent-treated controls, a significant elevation in plasma prolactin was observed at 10, 20 and 60 min following the intravenous injection of either 1 microgram arginine vasotocin (AVT) or 1 mg melatonin into EP primed male rats. A consistent rise in plasma prolactin was also evident after the injection of 1 microgram of either arginine vasopressin, lysine vasopressin or AVT. Oxytocin had no effect on plasma prolactin values. The intravenous administration of 1 microgram of (deamino-1,6 dicarba, 8-arginine)-vasotocin caused a significant elevation of plasma prolactin 10 and 20 min after injection. However, the injection of another analogue of AVT, (4-leucine, 8-arginine)-vasotocin, had no effect on prolactin release at the time points measured.     

Effects of interleukins on plasma arginine vasopressin and oxytocin levels in conscious, freely moving rats.

To elucidate whether interleukins are involved in vasopressin or oxytocin release during cytokine-related stressful conditions, we examined the effects of human interleukin-1 beta and interleukin-6 on plasma vasopressin and oxytocin levels in rats. Interleukin-1 beta administrated intravenously stimulated both the vasopressin and oxytocin secretion in dose-dependent manners. Neither hormone release was observed following interleukin-6 administration. Pretreatment with aspirin significantly attenuated the effects of interleukin-1 beta on both the vasopressin and oxytocin levels. SC-19220, a prostaglandin E2 receptor antagonist, did not affect the interleukin-1 beta-induced increase of plasma oxytocin levels, but almost completely abolished its effect on plasma vasopressin levels. These results suggest that under certain stressful conditions which accompany the stimulation of cytokine production, interleukin-1 is involved in the increase of plasma vasopressin and oxytocin levels and, moreover, different kinds of prostaglandins are suggested to participate in these interleukin-1-induced hormone release.     

The influence of long-term estrogen treatments on daily plasma prolactin levels in ovariectomized rats

Prolactin levels were determined in the plasma of female rats from 4 to 54 days after ovariectomy or ovariectomy and treatment with a long acting polymer of estradiol, polyestradiol phosphate (PEP), or Silastic implants of crystalline estradiol-17β. Blood samples were withdrawn from indwelling aortic catheters in the morning (0900–1100) and afternoon (1500–1700). Both methods of estrogen delivery elevated plasma prolactin in the morning and afternoon compared to ovariectomized controls. However, the increases in the afternoon were significantly greater than those in the morning. The difference from ovariectomized controls and the morning-afternoon differences were maintained for 25–26 days in the polyestradiol phosphate-treated group whereas those differences in the group receiving the implants of estradiol were significant for the entire length of the experiment (54 days). In addition, there were periodic fluctuations in the morning and afternoon levels of prolactin in the estradiol implanted animals. It is suggested that the plasma prolactin response to estrogen varies with time of day, time after administration of estrogen and with the method of estrogen delivery.     

Influence of arginine vasotocin on the estrogen-induced surge of LH and FSH in adult ovariectomized rats

The effects of arginine vasotocin (AVT) on the estrogen-induced surge of LH and FSH were examined in ovariectomized adult rats. Two and one-half weeks after ovariectomy, animals that were treated with a single subcutaneous (s.c.) dose of 5 μg of estradiol benzoate (EB) exhibited a surge of LH and FSH at 1700 and 1900 hours, respectively, two days after the administration of the EB. AVT, antidiuretic hormone (ADH) and oxytocin (OT) were administered s.c. in 1 μg dose every 4 hours beginning at 1500 hours on day 1 after EB treatment and then every 2 hours beginning at 1200 hours on day 2 after EB treatment. AVT completely prevented the LH surge at 1700 hours but was without effect on the FSH surge at 1900 hours on the day 2 after steroid treatment. Neither ADH nor OT had any significant effect on the afternoon surge of these hormones. It is postulated that AVT may interfere with the mechanisms mediating the estrogen-induced afternoon surge of LH in ovariectomized rats.     

Dopaminergic mediation of Y-aminobutyric acid in the control of prolactin release: Plasma prolactin and brain tyrosine hydroxylase levels in ovariectomized conscious rats

The present experiments were carried out to further elucidate the mechanism by which dopamine mediates the actions of Y-aminobutyric acid on prolactin release from anterior pituitary following its intraventricular injection in overiectomized conscious rats, Y-Aminobutyric acid significantly suppressed the prolactin levels at 0.1 Μmol concentration while at 4 Μmol dose, the level was elevated. The activity of tyrosine hydroxylase was increased significantly in the anterior pituitary at the lower dose while the higher concentration of Y-aminobutyric acid did not bring about any change in the activity both in the hypothalamus and the anterior pituitary. The results presented suggest that intracellular dopamine in the anterior pituitary may directly inhibit prolactin release; the plasma prolactin level is elevated by Y-aminobutyric acid, by way of either inhibiting dopaminergic tone or possible stimulation of a physiological prolactin releasin g hormone.     

Effects of intraventricular injection of gastrin on release of LH,prolactin, TSH and GH in conscious ovariectomized rats

Conscious ovariectomized (OVX) rats bearing a cannula implanted in the 3rd ventricle were injected with 2 μl of 0.9% NaCl containing varying doses of synthetic gastrin and plasma gonadotropin, GH and TSH levels were measured by RIA in jugular blood samples drawn through an indwelling silastic catheter. Control injections of saline iv or into the 3rd ventricle did not modify plasma hormone levels. Intraventricular injection of 1 or 5 μg gastrin produced significant suppression of plasma LH and prolactin (Prl) levels within 5 min of injection. Injection of 1 μg gastrin had no effect on plasma GH, but increasing the dose to 5 μg induced a progressive elevation, which reached peak levels at 60 min. By contrast, TSH levels were lowered by both doses of gastrin within 5 min of injection and the lowering persisted for 60 min. Intravenous injection of gastrin had no effect on plasma gonadotropin, GH and TSH, but induced an elevation in Prl levels. $\text{In}$$\text{vitro}$ incubation of hemipituitaries with gastrin failed to modify gonadotropin, GH or Prl but slightly inhibited TSH release at the highest dose of 5 μg gastrin. The results indicate that synthetic gastrin can alter pituitary hormone release in unrestrained OVX rats and implicate a hypothalamic site of action for the peptide to alter release of a gonadotropin, Prl and GH. Its effect on TSH release may be mediated both via hypothalamic neurons and by a direct action on pituitary thyrotrophs.     

Effects of serotonergic agents on plasma prolactin levels in pyridoxine-deficient adult male rats

Plasma concentration of prolactin was significantly reduced in pyridoxine-deficient as compared to control (pyridoxine-supplemented) adult male rats. Administration of pyridoxine to deficient rats resulted in a significant increase in plasma prolactin. The reduction in plasma prolactin in pyridoxine-deficient rats corresponded with the significantly reduced hypothalamic contents of pyridoxal phosphate and serotonin in pyridoxine-deficient rats. Plasma prolactin concentrations were also measured in response to serotonergic agents in both groups of rats. The administration of the 5HT_1A agonist (8-hydroxy 2-n-dipropylamino tetralin) resulted in a significant increase in plasma prolactin and that of the specific 5HT_1A antagonist spiroxatrine had the opposite effect. The results suggest that the hypothalamic serotonergic regulation of prolactin release is impaired in pyridoxine deficiency.     

Cimetidine and plasma levels of gonadotropins,prolactin and gonadal steroids in women.

The endocrine effects of cimetidine (Tagamet) during the menstrual cycle were investigated in seven healthy female volunteers. The subjects were studied for six menstrual cycles divided into the pretreatment phase, a phase of therapy with 1.2 g of orally administered cimetidine daily for two cycles, and a post-treatment phase. Cimetidine therapy induced a significant increase in the mean plasma level of follicle-stimulating hormone during the periovulatory period, followed by modest but sustained hyperprolactinemia throughout the luteal phase of each cycle. No significant changes were found in the mean plasma levels of luteinizing hormone and progesterone, and the mean plasma estradiol level was significantly decreased only in the midproliferative phase of each cycle. The mean plasma prolactin levels after a bolus injection of thyrotropin-releasing hormone in the midluteal phase during cimetidine administration did not differ from the mean control levels, which indicates that cimetidine modulates the release of prolactin at the suprapituitary locus. However, the significance of the endocrine changes remains to be established.     

Osmotic stimuli and NaCl-intake in the fowl; release of arginine vasotocin and prolactin

White Plymouth Rock hens were fed a high- and a low-NaCl content of the diet. The two groups were exposed to moderate dehydration, to intra-arterial hyperosmotic NaCl-loading, or to injection of physiological doses of arginine vasotocin (AVT). The plasma levels of AVT and prolactin were measured by accurate and sensitive radioimmunoassay and the osmolality and Na, K (and Cl) concentrations also measured for 48 h after dehydration, and for 60-90 min after NaCl-loading or AVT-injection. The plasma concentration of AVT after a given increase of plasma osmolality was in all experiments found higher in the low- as compared to the high-NaCl diet group. The average difference was 0.2 pg/ml X mOsm. The intra-arterial injection of AVT resulted in a strictly mono-exponential fall over the next hour with an average half-life of 6.3 min without any difference between the high- and the low-NaCl diet groups. It is concluded (a) that the release of prolactin after osmotic stimulation is most likely caused by a direct effect of osmolality (or Na concentration) and not by AVT, (b) that the release of AVT is influenced by the NaCl-intake in a direction which tends to maintain extracellular volume.     

Effects of progesterone on concentrations of monoamines in hypothalamic areas and plasma prolactin levels in rats.

The role of progesterone to increase prolactin (PRL) secretion on the first estrous day in pubertal rats was compared with its role in adult cyclic rats. The first estrus was induced by the administration of pregnant mare serum gonadotrophin (5 IU) at 28 days of age. A subcutaneous administration of 2.5 or 7.5 mg of progesterone/100 g body wt significantly increased the concentration of plasma PRL in pubertal rats within 4 hr. The PRL level obtained after progesterone administration was greater than that in similarly treated adult rats. The concentration of dopamine in the arcuate nucleus-median eminence (ARC-ME) in pubertal rats significantly decreased after a lower dosage of progesterone was administered, but no change was found in the preoptic area concentration. In adult estrous rats, the concentration of dopamine in the ARC-ME showed a tendency to decrease after the administration of a larger dose of progesterone (7.5 mg/100 g body wt). No change was observed in the concentrations of indoleamines in the preoptic area and ARC-ME after the administration of progesterone in both pubertal and adult rats. The concentrations of dopamine in the preoptic area and ARC-ME were lower in pubertal rats than in adults. The concentration of 5-hydroxyindole acetic acid and the ratio of 5-hydroxyindole acetic acid to 5-hydroxytryptamine in the ARC-ME were higher in pubertal rats than in adults. These results indicate that progesterone causes a greater increase in tonic PRL secretion in pubertal rats than in adult rats and that a lower hypothalamic dopamine activity and a higher serotonin activity in pubertal rats may account for these differences.     

Effect of peripheral administration of arginine vasotocin on neonatal sleep in rats

Vasotocin was recently reported to increase the neonatal amount of active sleep in kittens. In this study we examined the effects of arginine vasotocin (vasotocin), given intraperitoneally and at a wide dose range, on the sleep-wake behavior of 7-day-old and 14-day-old rat pups using a static charge sensitive recording system. It increased the percentage of quiet state relative to total sleep time at the doses of 0.01-1.0 ng/g of body weight but did not affect it at the dose of 0.001 ng/g. The percentage of active sleep was decreased by doses of 0.01-10.0 ng/g. The increase in the amount of quiet state and the concurrent suppression of active sleep lasted for 6 hours. Wakefulness was slightly increased at 10 ng/g of vasotocin. These findings indicate that, in contrast to the reports on kittens, in newborn rats peripheral administration of vasotocin increases the amount of quiet state relative to total sleep time and decreases that of active sleep.     

Effects of estradiol on the prolactin surges and the feedback mechanisms of gonadotropins in pseudopregnant rats

The influences of estradiol on the prolactin (PRL) surges and on the secretion of gonadotropins (LH and FSH) were investigated in the pseudopregnancy (PSP) of acutely ovariectomized rats. The four following experimental groups were prepared: 1) intact PSP as a control, 2) ovariectomy was performed on day 0 of PSP (OVX), 3) a Silastic tube containing estradiol was implanted for day 1-4 into the OVX rats (OVX-E 1-4), and 4) the Silastic tube was implanted for day 5-8 by the same manner into the OVX rats (OVX-E 5-8). In the OVX group nocturnal (N) PRL surges were observed at 0500 h on days 4, 8 and 12 examined, and increased secretions of LH and FSH were noted. In the OVX-E 1-4 group, the N PRL surge was suppressed on day 4, and the suppressed N PRL surge did not occur on day 8, after the removal of the implanted tubes. Diurnal (D) PRL surges with LH surges were observed at 1700 h on day 4 in these rats. Similarly, more remarkable results were obtained on days 8 and 12 in the OVX-E 5-8 group than in the OVX-E 1-4.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of changes in plasma hepatic-portal and systemic osmolality on plasma concentrations of arginine vasopressin in conscious newborn calves

Systemic plasma concentrations of arginine vasopressin (AVP) were studied in three groups of 10-15 day-old conscious newborn calves. Animals in the first group (control group) and in the second group (systemic-hypertonic-injected group) received respectively isotonic and hypertonic (8 mmol NaCl/kg body weight) saline injection into the right jugular vein. Animals in the third group were fitted with chronic mesenteric and hepatic-portal catheters and received a 1 h-hypertonic saline infusion (2 mmol NaCl/kg body weight) into the main mesenteric vein. In animals in the second group there were parallel increases in systemic plasma concentration of Na+ (from 148.0 +/- 2.6 to 177 +/- 8 mmol/l; P less than 0.01), osmolality (from 289 +/- 2 to 319 +/- 4 mOsmol/kg H2O; P less than 0.01) and systemic plasma concentrations of AVP (from 4.2 +/- 0.4 to 11.1 +/- 0.6 pmol/l; P less than 0.01) 10 min after the injection. There were no significant changes in control animals. Hypertonic saline infusion into the main mesenteric vein in the third group induced an increase in concentration of Na+ (from 147.3 +/- 2.0 to 165.0 +/- 5.0 mmol/l; P less than 0.01) and osmolality (from 288 +/- 5 to 315 +/- 10 mOsmol/kg H2O; P less than 0.01) in hepatic-portal vein plasma but did not alter systemic plasma osmolality or concentrations of Na+ and AVP. This study demonstrates that the relationship between plasma concentrations of AVP and systemic osmolality is operative in the newborn calf but does not support the hypothesis that hepatic portal osmo-receptors sensitive to hyperosmolality influence AVP release.     

The influence of estrogen on plasma prolactin levels induced by thyrotrophin releasing hormone (IRH), clonidine and serotonin in ovariectomized rats.

Prolactin levels were determined in the plasma of ovariectomized and ovariectomized estrogen treated rats by RIA following intraarterial injection of TRH, (1 and 10 μg/rat), clonidine (5 mg/kg) and serotonin (10 mg/kg). In ovariectomized rats, TRH had no effect on plasma prolactin whereas serotonin and clonidine induced slight and moderate increases respectively. In contrast, TRH induced a significant increase in plasma prolactin in estrogen-treated rats while the effects of the other two agents were enhanced only slightly (clonidine) or very markedly (serotonin). These results indicate that the prolactin-releasing activity of TRH is dependent on estrogen and that estrogen differentially affects noradrenergic and serotonergic components of the neuroendocrine mechanism that controls prolactin. It is also suggested that clonidine and serotonin probably do not increase plasma prolactin by releasing endogenous TRH.     

Effect on the administration of LHRH on LH and prolactin plasma levels in adult female rats ovariectomized and maintained in constant light (author's transl)]

The influence of prolonged periods of constant lighting on the plasma levels of LH and prolactin in adult female rats has been studied. No differences in either hormones are observed between intact animals under constant light of under a 12 hr (controls) darkness schedule. After ovariectomy LH values increase on both experimental conditions, with higher levels in the control group (p less than 0.01). After ovariectomy, a similar pattern is observed in animals under constant light, or under a 12 hr light darkness schedule, in the decrease of prolactin levels and in the increase of plasma LH levels after LHRH administration (100-1,000 ng). The stress induced by experimental manipulation, ether anesthesia and saline injection elevates plasma prolactin in both groups. LHRH administration blocks this response.