The effects of partial opiate agonists on plasma prolactin and growth hormone levels in the rat.

Opiate agonists, partial agonists, and antagonists differed in their effects on release of prolactin and growth hormone. Agonists (morphine, methadone or meperidine) elevated plasma levels of both hormones. An antagonist (naloxone) lowered levels of prolactin but not growth hormone. All partial agonists studied raised growth hormone levels; among these, levallorphan, nalorphine, and ciramadol lowered prolactin levels while pentazocine and meptazinol did not. Naloxone blocked morphine-induced release of prolactin and growth hormone. The partial agonists suppressed morphine-induced prolactin release, and several suppressed the elevated growth hormone levels as well. Data from the opiate radioreceptor assay (displacement of ³H-naloxone) in the presence and absence of sodium agrees with the above placement of agents into three classes. These results suggest that classification of opioid compounds into agonists, partial agonists and antagonists may be made by their effects on prolactin and growth hormone release.     

Inhibitory effects of substance P on the gamma-amino-butyric acid and gamma-hydroxybutyric acid-induced growth hormone and prolactin release in male rats

Gamma-aminobutyric acid (GABA) at 50 μg/10 μ1 was injected into the lateral ventricle after pretreatment with intraventricular injection of 1 μg of substance P in urethane anesthetized male rats. Thirty minutes after GABA injection the animals were decapitated and blood samples were collected from the trunk. Serum GH and prolactin were determined by radioimmunoassays. The intraventricular GABA elicited a significant increase in both serum GH and prolactin levels. Intraventricular substance P itself had no effect on serum GH and prolactin, but it inhibited the GABA-induced increases in serum GH and prolactin. Gamma-hydroxybutyric acid (GHB) was intraperitoneally injected with and without an intraventricular injection of substance P in urethane anesthetized rats. The GHB injection significantly increased serum GH and prolactin levels. Pretreatment with substance P completely inhibited the GHB-induced GH and prolactin responses. These results suggest that substance P might interact with GABA in the central nervous system.     

Naloxone inhibits prolactin and growth hormone release induced by intracellular glucopenia in the rats

Intraventricular administration of 2-deoxy-D-glucose (2DG), which causes intracellular glucopenia in the central nervous system, increased plasma prolactin and growth hormone levels in the urethane anesthetized male rats. Naloxone, an opiate antagonist, inhibited the 2DG-induced prolactin and growth hormone release. Apomorphine, a dopaminergic agonist, also inhibited the release of these hormones induced by 2DG. These results suggest that endorphins play a role in hypoglycemia-induced prolactin and growth hormone release and that the dopaminergic mechanism may be involved in this phenomenon.     

Suppressive effects of cholecystokinin and bombesin on growth hormone and prolactin secretion in urethane-anesthetized rats

The effects of cholecystokinin octapeptide (CCK) and bombesin on rat plasma growth hormone (GH) and prolactin (PRL) levels were investigated with the animals under urethane anesthesia. Intraventricular administration of both CCK (0.3 micrograms) and bombesin (2 micrograms) completely suppressed the GH secretion induced by FK 33-824, chlorpromazine (CPZ) or prostaglandin E2(PGE2). Both peptides also completely suppressed the PRL secretion induced by FK 33-824 or PGE2, and partially that induced by CPZ, but not that induced by domperidone. The intravenous administrations of CCK and bombesin had no or lesser potency in inhibiting the stimulated GH or PRL releases. These results indicate that the CCK and bombesin act much in the same manner to inhibit GH and PRL. These peptides may suppress the GH and PRL secretions via a hypothalamus-related action.     

Role of aging on growth hormone and prolactin release after growth hormone-releasing hormone and domperidone in man

Growth hormone (GH) and prolactin (PRL) secretion after GH-releasing hormone (GHRH) and domperidone (DOM), an antidopaminergic drug which does not cross the blood-brain barrier (BBB), was evaluated in 8 healthy elderly men (65-91 years) and in 7 young adults (23-40 years). All received in random order at 2-day intervals: GHRH(1-40) (50 micrograms i.v.) bolus, DOM (5 mg/h) infusion, GHRH(1-40) (50 micrograms i.v.) plus DOM (5 mg/h i.v.), saline solution. In elderly men GH increase after GHRH was significantly lower than in young men. DOM alone did not change GH secretion in either of these groups, whereas it increased the GH response to GHRH only in young adults. PRL levels increased in both young and elderly men during both DOM and GHRH plus DOM, but the PRL release was more marked in young than in elderly men. Both integrated secretion of GH after GHRH and of PRL after DOM were inversely correlated to chronological age. Our data show an impairment of GH rise after GHRH and of PRL after DOM in elderly adults. It is also stressed that peripheral blockade of dopamine receptors by DOM is unable to amplify the GH response to GHRH only in elderly men. A reduction in GH release after GHRH might be related to aging, perhaps through a reduction of dopaminergic tonus.     

Growth hormone and prolactin release by substance P in rats

Intravenous injection of synthetic Substance P resulted in a significant and dose-related increase in plasma growth hormone (GH) and prolactin (PRL) in urethane-anesthetized rats. Increases in plasma GH induced by Substance P were significantly suppressed by the simultaneous administration of either ?-dopa or nicotine, whereas plasma PRL responses to Substance P were blunted by ?-dopa but not by nicotine. Substance P also raised plasma GH and PRL in rats with extensive hypothalamic destruction. L-dopa significantly suppressed plasma PRL responses to Substance P in rats with hypothalamic destruction. However, plasma GH responses to Substance P were not significantly affected by ?-dopa nor by nicotine in animals with hypothalamic ablation. These results suggest that Substance P stimulates rat GH and PRL secretion possibly acting on the anterior pituitary and that ?-dopa and nicotine affect GH and PRL release induced by Substance P in different ways.     

Comparison of effects of prolactin and growth hormone on adrenal 5alpha-reductase in hypophysectomized rats.

Adrenal 5alpha-reductase activity was measured in female rats 0, 2, 5, and 6 days after hypophysectomy. Enzyme activity increased progressively exhibing a 35-fold elevation at 6 days. The effects of high (250 mug/100 g of body wt), intermediate (25 mug/100 g of body wt), and low (2.5 mug/100 of body wt) daily doses of bovine prolactin and bovine growth hormone were compared at 2 and 5 days posthypophysectomy. At 2 days, enzyme activity was partially inhibited by the high and intermediate doses of prolactin and not affected by growth hormone. At 5 days all doses of prolactin were inhibitory, whereas enzyme activity was suppressed only by the high dose of growth hormone. With a given dose of hormone, the amount of suppression of enzyme activity is greater at 5 days than at 2 days posthypophysectomy. In 5-day hypophysectomized rats the inhibitory effects of prolactin and growth hormone were additive. It is concluded that: (i) hormonal sensitivity and responsiveness of the adrenal reductase pathway increases with duration of pituitary ablation; (ii) the reductive pathway is more sensitive to the effects of prolactin than growth hormone; and (iii) the effects of growth hormone and prolactin on reductase activity are mediated via different mechanisms, as suggested by the additive effects of individual hormones.     

Stimulatory effects of gamma-aminohydroxybutyric acid (GABOB) on growth hormone, prolactin and cortisol release in man

Healthy male volunteers injected subcutaneously with 200 mg L-GABOB showed no significant changes in plasma GH, prolactin and cortisol levels. On the other hand, an intrathecal injection of 300 mg D, L-GABOB to cerebrovascular patients caused significant increases in plasma GH, prolactin and cortisol levels at 60 min after injection. These results indicate that GABOB may elicit the secretion of GH, prolactin and ACTH via the central nervous system.     

Identification of tilapia ghrelin and its effects on growth hormone and prolactin release in the tilapia,Oreochromis mossambicus

We have identified ghrelin and cDNA encoding precursor protein from the stomach of a euryhaline tilapia, Oreochromis mossambicus. The sequence of 20-amino acid tilapia ghrelin is GSSFLSPSQKPQNKVKSSRI. The third serine residue was modified by n-decanoic acid. The carboxyl-terminal end of the peptide possessed an amide structure. RT-PCR analysis revealed high levels of gene expression in the stomach and low levels in the brain, kidney and gill. Tilapia ghrelin stimulated growth hormone (GH) and prolactin (PRL) release from the organ-cultured tilapia pituitary at a dose of 10 nM. Thus, a novel regulatory mechanism of GH secretion by gastric ghrelin seems to be conserved in the tilapia. Stimulation of PRL release by homologous ghrelin has been reported in human, bullfrog and eel, and suggests the presence of growth hormone secretagogue receptor not only on somatotrophs but also on PRL cells of the tilapia pituitary.     

Contrasting effects of pituitary adenylate cyclase activating polypeptide (PACAP) on in vivo and in vitro prolactin and growth hormone release in male rats.

Pituitary adenylate cyclase activating polypeptide (PACAP) is produced by hypothalamic neurons which terminate within the median eminence suggesting that it may be a hypophysiotropic hormone. However, little endocrine activity has been ascribed to the peptide. Therefore we studied the effects of PACAP on prolactin (Prl) release from dispersed cultivated rat pituitary cells in vitro using conventional cultures as well as the reverse hemolytic plaque assay (RHPA). Furthermore the effects of the peptide on in vitro GH release were assessed. In addition, the activity of the peptide on in vivo release of Prl and GH was studied in hypothalamus-lesioned animals. PACAP dose dependently inhibited Prl release form dispersed pituitary cells in both, monolayer cell cultures and the RHPA, whereas GH secretion was not affected. In hypothalamus-lesioned rats which have high Prl levels due to the absence of hypothalamic dopamine, PACAP further stimulated Prl release. Serum GH increased more than 20 fold in response to the intravenous PACAP infusion. Thus in vitro (inhibition of Prl release, no effect on GH release) and in vivo (stimulation of both hormones) experiments yielded contradicting effects of PACAP on pituitary hormone release. We suggest that PACAP may stimulate the release of a paracrine, yet unknown factor which in the intact pituitary overrides the direct inhibitory action of PACAP on the lactotropes. The same or another paracrine factor may also enhance in vivo GH release. In cell culture the paracrine factor is diluted by the medium. Therefore the peptide never reaches effective concentrations which are present within the intact pituitary tissue.     

Secondary-reinforcing effects of opiate agonists in the mouse

Comparative examination of secondary-reinforcing properties of opiate agonists morphine, nalorphine, pentazocine and phencyclidine was carried out on mice using procedure of place preference conditioning in an automatic shuttle-box. Morphine, phencyclidine and pentaxocine (but not nalorphine) produced strong dose-dependent secondary-reinforcing effects. Special features of behavioural manifestations of their secondary-reinforcing action were analyzed in aspect of changes in temporal asymmetry and attendant locomotor activity of animals in the shuttle-box. On the basis of the obtained and literature data, it is suggested that mu- and sigma-opiate receptors mediate secondary-reinforcing effects of opiate agonists.     

In vivo and in vitro effects of cholecystokinin octapeptide on the release of growth hormone in rats

The effect of cholecystokinin octapeptide (CCK-8) on the release of growth hormone (GH) in rats was studied in vivo and in vitro. Intravenous injection of 5 micrograms/100 g BW of CCK-8 resulted in significant increase in the plasma GH level after 10 and 20 min. CCK-8 at concentrations of 10(-11)M to 10(-7)M also caused dose-dependent stimulation of GH release from dispersed cells of rat anterior pituitary. On the other hand, somatostatin (SRIF) inhibited GH release from dispersed cells of rat anterior pituitary in a dose-related manner at concentrations of 10(-7)M to 10(-9)M. Release of GH from the cells was increased by addition of K+ at high concentration (50 mM) in a Ca++-dependent manner. Addition of 10(-3)M verapamil to the incubation medium inhibited CCK-8-induced GH release from the cells. Addition of SRIF (10(-7)M) to the incubation medium inhibited GH release from the cells induced by CCK-8 or high K+ (50 mM). These results indicate that CCK-8 acts directly on the anterior pituitary cells to stimulate GH release and that calcium ion is involved in the mechanism of this effect.     

促性腺激素释放激素及多巴胺对斜带石斑鱼生长激素分泌及其mRNA表达的调控

研究斜带石斑鱼生长激素分泌及其mRNA表达的调控规律对于性别分化的控制、临床药物的选择,以及石斑鱼的增养殖等均具有重要的理论意义和实践意义。本文应用静态孵育系统,采用放射免疫测定法和化学发光液相杂交实验,研究GnRH和DA对斜带石斑鱼GH分泌、GHmRNA合成的调控作用。100nmol／LsGnRH作用斜带石斑鱼脑垂体碎片1也4h,明显促进GH的释放和GHmRNA的合成,并具有时间依存性;10nmol／L～1μmol／LsGnRH作用1h能明显促进斜带石斑鱼脑垂体释放GH,促进GHmRNA的合成,表现出明显的剂量效应。100nmol／L、1μmol／LmGnRH作用1h以一定的剂量依存方式促进GH的释放、促进GHmRNA的合成,但mGnRH的效应比相应剂量的sGnRH的作用弱。APO为DA受体的非选择性激动剂,不同剂量APO对斜带石斑鱼脑垂体碎片的作用结果显示,10nmol／L-1μmol／L APO以剂量依存方式促进斜带石斑鱼脑垂体碎片释放GH、促进GHmRNA的合成：1μmol／LAPO作用12h以上明显促进GH的释放和GHmRNA的合成,并随时间的延长而增加。与sGnRH对斜带石斑鱼GH释放、GHmRNA合成的作用相比,APO的作用较弱。本文研究结果证实GnRH和DA能促进斜带石斑鱼脑垂体GH释放和GHmRNA合成。     

Reevaluation of the effects of growth hormone and prolactin on anuran tadpole growth and development

The effects of ovine prolactin (oPRL) and ovine (o) or porcine (p) growth hormone (GH) on growth of anuran larvae were compared. In grass frog tadpoles (Rana pipiens), injections of oPRL (10 micrograms/gm/day) increased tail growth and body weight but had no effect on hindlimb growth or development. The same dose of oGH did not significantly affect the tail or body weight but it caused a striking increase in limb length and development. In bullfrog tadpoles (Rana catesbeiana) given an ergot drug (bromocriptine) to induce metamorphic changes, significant tail regression and loss of body weight occurred. Treatment with oPRL reversed these effects but had no effect on hindlimb growth or development. The pGH was much less effective than the oPRL in blocking tail regression and body weight loss but it significantly increased limb growth and development. These results show that GH and PRL can differentially regulate growth and development of structures in larval anurans. The effects of GH on limb growth and development can not be explained simply by a thyrotropic effect.     

Thyroid stimulating hormone and prolactin secretion: reduced sensitivity to TRH-stimulated prolactin release after midpregnancy in rats

Prolactin (PRL) and thyroid stimulating hormone (TSH) plasma concentrations were measured during the latter part of the dark period in early and mid-late pregnancy in the rat. On Days 4-5 and 7-8 of pregnancy, plasma PRL concentrations surged between 22:00 and 06:00 hr and TSH values increased between 22:00 and 02:00 hr. While the TSH pattern was maintained during the second-half of pregnancy, surges in PRL release ceased and PRL levels remained at less than 10 ng/ml. The effects of thyrotropin releasing hormone (TRH) administration on PRL and TSH secretion were then measured to determine whether the second-half of pregnancy is associated with a decrease in sensitivity to an agent that can stimulate PRL release. Injection (iv) of cannulated pregnant rats with a low dosage (20 ng) of TRH stimulated a twofold increase in plasma TSH during both early (Days 5-9) and later (Days 14-18) pregnancy but did not change plasma PRL levels. Treatment with a high dosage (2 micrograms) of TRH induced a sixfold rise in plasma TSH during both phases of gestation. The higher dose of TRH also stimulated elevations in plasma PRL during early and mid-late pregnancy; however, both the absolute increase in the amount of PRL in plasma and the percentage increase over baseline levels were greater from Days 5-9 than from Days 14-16 of gestation. These data indicate that the neuroendocrine sensitivity to factors that stimulate PRL secretion changes as pregnancy progresses, and suggest that nocturnal secretion of PRL and TSH during pregnancy may be regulated, in part, by a common trophic factor.     

Functional and anatomical segregation of hypothalmic opiate receptors involved in prolactin and growth hormone secretion in cynomolgus monkeys

The minimum effective dose of the synthetic long-acting opiate peptide D-Ala², MePhe⁴, met-(o)-ol enkephalin which elicited prolactin (Prl) and growth hormone (GH) secretion after i.v. injection in cynomolgus monkeys was established. Following this, the hormone responses were examined after a series of bilateral injections of this met-enkephalin analog were given systematically throughout the hypothalamus in 3 animals. Marked differences between the patterns of release of the 2 hormones were noted: Prl was released more often than GH, but on several occasions GH secretion occured without a Prl response. Saline injections were ineffective in raising the level of either hormone. The responses to intrahypothalamic injections of the peptide were antagonised in a dose dependent manner by the prior i.v. administration of naloxone. After sacrifice, the injection sites were histologically localised from semi-serial sections taken throughout the hypothalamus. On pooling the results, it emerged that Prl release occurred following injections given throughout the medio-basal hypothalamus. There were fewer GH responses, which tended to occur from more anterior, lateral and possibly more dorsal injection sites. It is concluded that functionally and anatomically segregated systems may be involved in the regulation of Prl and GH release in the monkey and possible mechanisms are discussed.     

Biphasic effects of dexamethasone on growth hormone release in vitro

The effect of dexamethasone (Dex) on growth hormone (GH) release was examined in vitro in monolayer culture of normal rat pituitary cells and human somatotropinoma cells from patients with acromegaly. In either cell strain, Dex, at a concentration of 50 nM initially inhibited, but later (48 less than or equal to h) potentiated, the release of GH into the medium, with or without growth hormone releasing hormone (GHRH). The intracellular GH was significantly increased by 4-hour incubation with Dex in rat cell cultures. These results indicate a biphasic effect of glucocorticoids on GH release, irrespective of the origin of somatotrophs, and that the initial inhibitory effect is probably caused by inhibition of the release.