Effects of granulocyte-macrophage colony stimulating factor on cortisol, growth hormone, prolactin and melatonin in cancer patients (short communication).

Several interleukins and interferons have been proven to induce endocrine effects. On the contrary, only few data are available about the possible hormonal activity of hemopoietic growth factors. This study was carried out to evaluate the endocrine influence of GM-CSF in humans. The study included nine head and neck cancer patients, evaluated in basal conditions and after an acute subcutaneous injection of GM-CSF at a dose of 3 mcg/kg b.w., by determining serum levels of cortisol, growth hormone (GH), prolactin (PRL) and melatonin. Both cortisol and GH significantly increased in response to GM-CSF, while PRL, and melatonin were not influenced. This preliminary study shows that hemopoietic growth factors, as well as interleukins, may also play endocrine effects in humans.     

Prolactin induced expression of interleukin-1 alpha,tumor necrosis factor-alpha,and transforming growth factor-alpha in cultured astrocytes

Prolactin (PRL) is a potent mitogen in cultured astrocytes. Because one of the major effects of astrocyte proliferation is the expression of inflammatory cytokines, we examined the effect of PRL-induced mitogenesis on the expression of interleukin-1 (IL-1α), tumor necrosis factor-α (TNF-α), and transforming growth factor-α (TGF-α) in cultured astrocytes. Astrocytes were stimulated with PRL or growth hormone (GH), and the expression of cytokines was determined by immunohistochemistry and Western blot analysis. Following incubation of astrocytes with 1 nM PRL for 6 h, strong positive staining of IL-1α and TNF-α, but not TGF-α, was found. No detectable staining for the above cytokines was found in vehicle, or GH treated astrocytes. When astrocytes were incubated in the presence of 1 nM PRL for 18 h, strong positive staining for IL-1α and TGF-α was found. Immunocytochemical analysis of the expression of TNF-α and IL-1α in PRL stimulated astrocytes suggested that the expression of IL-1α preceded the expression of TNF-α. To confirm this observation, Western blot analyses were performed on extracts from astrocytes incubated with 1 nM PRL. In unstimulated astrocytes, IL-1α levels were not detectable. In astrocytes stimulated with 1 nM PRL, expression of IL-1α was clearly detected after 1 h of incubation, and IL-1α levels continued to increase during the course of the experiment (6 h). In contrast, in astrocytes stimulated with 1 nM PRL, an increase in the expression of TNF-α was first apparent after 2 h of incubation. TNF-α levels peaked 3 to 4 h after the addition of PRL, and returned to near control levels after 6 h. Finally, injection of PRL into a wound site in female rats increased the expression of glial fibrillary acid protein (GFAP), an astrocyte specific protein. These data suggest that PRL can stimulate astrogliosis at the wound site in vivo. These data clearly indicate that PRL can stimulate the expression of TNF-α and IL-1α in cultured astrocytes and suggest that PRL may play a role in the regulation of the neuroimmune response in vivo.     

Interleukin-1beta and tumor necrosis factor-alpha mediation of endotoxin action on growth hormone

In humans and sheep, endotoxin (LPS) administration results in increased growth hormone (GH) concentrations. To determine the role of cytokines in the effect of LPS on GH, sheep were challenged with IL-1beta or TNF-alpha. GH data were compared with results with LH, where the major effects of LPS are known to act via the hypothalamus. Intracerebroventricular (icv) administration of IL-1beta or TNF-alpha did not alter plasma concentrations of GH. Endotoxin was then administered intravenously (iv) in combination with icv injection of IL-1 receptor antagonist (IL-1RA), TNF antagonist (sTNF-R1), or saline. Administration of LPS increased GH (P < 0.0001), although coadministration of IL-1ra or sTNF-R1 icv did not alter GH response to LPS. In contrast, plasma concentrations of LH were profoundly inhibited by icv administration of either cytokine (P < 0.03), but the LH response to LPS was not altered by cytokine antagonists. Intravenous administration of either IL-1beta or TNF-alpha increased plasma concentrations of GH (P < 0.0001). Administration of IL-1RA and sTNF-R1 iv prevented LPS-induced increases in GH. Although LH was suppressed by high iv doses of IL-1beta (P = 0.0063), the antagonists did not alter the LH response to LPS. To determine whether LPS might directly activate GH release, confocal microscopy revealed colocalization of CD14, the LPS receptor, with GH and, to a lesser extent, LH and some prolactin (PRL)-containing cells, but not ACTH or TSH. These data are consistent with the effects of LPS on GH secretion originating through peripheral cytokine presentation to the pituitary, as well as a potential to act directly on selective populations of pituitary cells via CD14.     

Prolactin and growth hormone induce differential cytokine and chemokine profile in murine peritoneal macrophages in vitro: involvement of p-38 MAP kinase, STAT3 and NF-kappaB

The role of immune-neuroendocrine interactions in the autoimmune diseases is well recognized. Autoimmune rheumatoid diseases in their active phase have been characterized by high levels of prolactin (PRL) as well as proinflammatory cytokines which suggest a co-relationship between them. In the present study, we have investigated the profile of cytokines secreted by macrophages on treatment with PRL and growth hormone (GH) in vitro. Significantly enhanced production of cytokines IL-1beta, IL-12p40 and IFN-gamma was observed on treatment of macrophages with PRL or GH. However, higher doses of PRL (1000 ng/ml) induced the production of anti-inflammatory cytokine IL-10, with significant abrogation in production of proinflammatory cytokines. It is further observed that PRL and GH induced the production of chemokines MIP-1alpha and RANTES. PRL but not GH selectively induced significantly enhanced production of MCP-1 and IP-10. It is further shown that p38 MAP kinase, STAT3 and NF-kappaB could play a differential regulatory role in PRL or GH induced production of cytokines by macrophages.     

Leukaemia inhibitory factor and interleukin 6 inhibit secretion of prolactin and growth hormone by rat pituitary MtT/SM cells.

The rat pituitary cell line, MtT/SM, has the characteristics of somatomammotrophs. The cells secrete both prolactin (PRL) and growth hormone (GH). We examined the effects of cytokines such as leukaemia inhibitory factor (LIF), interleukin 6 (IL-6), oncostatin M and interleukin 11 on the secretion of these hormones by the cells. These cytokines stimulate proliferation of the cells and inhibit the secretion of PRL by 70-80% and that of GH by 50%. They induce tyrosine phosphorylation of STAT3 in the cells. The cells containing PRL or GH decreased at 48 h after treatment of the cells with LIF or IL-6. These results suggest that the LIF/IL-6 family of cytokines inhibits the functions of mammotrophs and somatotrophs in the pituitary gland.     

Cortisol response to an acute injection of IL-2 in healthy subjects and cancer patients: a first immunoneuroendocrine standardized clinical test to explore the interactions between immune and neuroendocrine systems

Preliminary clinical studies would suggest that the immune alterations characterizing severe human illnesses, such as autoimmune diseases and cancer itself, may depend at least in part on an anomalous psychoneuroendocrine regulation of the immunity. Unfortunately, at present the psychoneuroimmune interactions may be clinically investigated only by separately analyzing the neuroendocrine and the immune systems, since there is no standardized clinical test capable of detecting the physiological response of the endocrine secretion to an immune stimulation. One of the main endocrine functions influenced by the immune activation is the hypothalamic-pituitary-adrenal axis. In fact, several cytokines have appeared to stimulate cortisol secretion by acting at a central site. On this basis, a study was planned to evaluate cortisol response to an acute IL-2 injection in healthy subjects and metastatic cancer patients, in an attempt to standardize a clinical neuroendocrinoimmune test capable of documenting possible alterations of the link between neuroendocrine and immune systems. The study included 10 healthy subjects as a control group and 10 cancer patients with metastatic disease. Control subjects were evaluated in basal conditions to determine the physiological circadian rhythm of cortisol, and after the subcutaneous (SC) injection of IL-2 (3 and 9 million IU). IL-2 at 3 million IU stimulated cortisol release in all healthy controls and in none of the cancer patients. IL-2 at 9 million IU induced a significant increase in cortisol mean levels in cancer patients, whose values, however, were still significantly lower with respect to those seen in controls in response to IL-2 at 3 million IU. No important IL-2 related side-effect occurred. This study shows that an acute SC injection of low-dose IL-2 with a following evaluation of cortisol secretion may constitute a first standardized immunoendocrine test, capable of exploring the status of the physiological link between neuroendocrine and immune systems, and of documenting the existence of important alterations in human diseases related to an immune dysfunction, such as advanced cancer, which has appeared to be characterized by a hyposensitivity of the hypothalamic-pituitary-adrenal axis to an acute cytokine administration.     

A psychoncological study of lymphocyte subpopulations in relation to pleasure-related neurobiochemistry and sexual and spiritual profile to Rorschach's test in early or advanced cancer patients

According to recent advances in psychoneuroimmunology concerning the neurobiochemistry of emotions, the pshychological status of cancer patients should be investigated in relation to the function of the psychoneurodocrine system, in an attempt to put into evidence possible cancer progression-related alterations, particularly those involving the dopaminergic pathways, which play a fundamental role in the perception of pleasure. In fact, the decreased capacity of feeling pleasure is one of the most frequent psychic symptoms occurring in cancer patients. Rorschach's test has been proven to be an appropriate psychological tool to investigate psychic condition including sexual and spiritual profiles. On this basis, a study was planned to evaluate if a relation exists between psychological response to Rorschach's test and immunoneuroendocrine status of cancer patients. The immune status was investigated by measuring lymphocyte subsets and serum levels of IL-2 and IL-10. The neuroendocrine status was analyzed by evaluating the endocrine response of PRL, GH and cortisol to an oral administration of apomorphine (0.01 mg/kg b.w.), a dopaminergic agent able to explore dopaminergic sensitivity. The study included 40 cancer patients (breast cancer: 15; colorectal cancer: 14; lung cancer: 11), 21 of whom showed distant organ metastases. Rorschach's test demonstrated a simultaneous suppression of sexual and spiritual profiles in 31/40 (78%) patients, without significant differences in relation to either tumor histotype or disease state. A normal decline in PRL levels and a normal increase in those of GH and cortisol was observed in 29/40 (73%), 5/40 (13%) and 9/40 (23%) patients. The percent of normal responses of PRL, GH and cortisol was higher in patients with normal than in those with altered response to Rorschach's test, even though only the difference in PRL and cortisol response was statistically significant. Patients with normal sexual and spiritual expression at Rorschach's test showed a significantly higher number of total lymphocytes, T lymphocytes, T helper lymphocytes and NK cells with respect to the patients with altered psychological response, whereas no difference was found in T cytotoxic lymphocyte mean number. IL-2 and IL-10 mean serum concentrations were lower and higher, respectively, in patients with altered than in those with normal response to Rorschach's test, even though only the difference in IL-10 values was statitistically significant. This preliminary study, carried out to analyze the psychological status of cancer patients in relation to neuroendocrine and immune conditions, would suggest that neoplastic disease is characterized by a simultaneous suppression of sexual and spiritual profiles, and that this is associated with neuroendocrine alterations and immunosuppression.     

Prolactin and growth hormone synthesis: effects of perphenazine, alpha-methyltyrosine and estrogen in different thyroid states.

The effects of thyroid hormones on prolactin (PRL) and growth hormone (GH) synthesis by the rat anterior pituitary gland were assessed in vitro. A marked reduction (84-87%) in the rate of H3-leucine incorporation into GH was evident 2-4 weeks after thyroidectomy, while incorporation into PRL was 52-71% less than that measured in glands from intact rats. A single injection of T4 (200 mug/kg) administered to thyroidectomized (THX) rats 48 hr before sacrifice significantly increased incorporation into both pituitary hormones, although the stimulation of GH synthesis was much more dramatic. Perphenazine, alpha-methyltyrosine and estrogen enhanced the rate of PRL synthesis in intact rats. Thyroid ablation did not affect the response to perphenazine, but significantly increased the response to alpha-methyltyrosine and estrogen. On the other hand, administration of T4 to THX rats receiving perphenazine, alpha-methyltyrosine or estrogen diminished the stimulatory influence of these treatments on PRL synthesis. Perphenazine, alpha-methyltyrosine and estrogen had no effect on the rate of GH synthesis in THX rats, nor did they alter the ability of T4 to restore GH synthesis in these animals. These results indicate that GH synthesis in the rat is dependent upon thyroid hormones and support the concept that these hormones exert their stimulatory effect directly on pituitary somatotrophs. Pituitary lactotrophs, however, appear to retain much of their capacity to synthesize PRL under conditions of thyroid deficiency. The changes in pituitary PRL levels and synthesis rate induced by thyroid ablation might reflect differences in the number rather than the activity of these cells.     

Glucocorticoids antagonize induction of prolactin-gene expression by calcitriol in rat pituitary tumour cells.

Clonal strains of rat pituitary tumour (GH4C1) cells are known to possess specific intracellular binding sites for calcitriol (1,25-dihydroxycholecalciferol, 1,25-dihydroxyvitamin D3). GH4C1 cells respond to calcitriol by a selective increase in prolactin(PRL)-gene expression. The interaction between calcitriol and glucocorticoids was studied by using this cultured-cell model. It was found that cortisol potently antagonized the induction of PRL mRNA and PRL production by calcitriol. The effects were concentration-dependent and were evident at glucocorticoid concentrations that did not alter basal PRL production. Inhibition was half-maximal at 3.2 nM-cortisol and 0.4 nM-dexamethasone. Calcitriol-induced PRL mRNA fell by more than 50% at 25 h and reached the control level 50 h after treatment with cortisol. The inhibition by cortisol of calcitriol induction of PRL production was selective when compared with effects on other inducers of PRL-gene expression [thyroliberin, epidermal growth factor and phorbol myristate acetate ('12-omicron-tetradecanoylphorbol 13-acetate')]. Potent antagonism by glucocorticoids of vitamin D action on specific gene expression has been demonstrated. Further studies with this cultured-cell model may help to explain the mechanism of this hormonal interaction, which assumes particular importance at major sites of vitamin D action such as the intestine.     

Neuroendocrine and behavioral effects of m-chlorophenylpiperazine administration in rhesus monkeys

The effects of m-chlorophenylpiperazine (mCPP), a serotonin receptor agonist, on the release of plasma prolactin (PRL), growth hormone (GH), and cortisol in the rhesus monkey were studied. mCPP was administered intravenously at doses of 0.5, 1.5, and 3.0 mg/kg. GH and cortisol were increased significantly at all doses whike PRL was significantly increased only following administration of 3.0 mg/kg mCPP. mCPP administration also produced behavioral alterations in each monkey, including sedation, penile erection, and defecation. PRL, GH and behavioral responses to mCPP were completely blocked by pretreatment with the serotonin anatgonist metergoline (MTG). However, pretreatment with MTG failed to entirely antagonize the cortisol response to mCPP. These data suggest that mCPP has prominent neuroendocrine and behavioral effects which are mediated, in part, by serotonergic mechanisms.     

Effects of ghrelin on growth hormone secretion in vivo in ruminants

Ghrelin, a novel endogenous growth hormone (GH) secretagogue, has been shown to exert very potent and specific GH-releasing activity in rats and humans. However, little is known about its GH-releasing activity and endocrine effects in domestic animals. To clarify the effect of ghrelin on GH secretion in vivo in ruminants, plasma GH responses to intra-arterial and intra-hypothalamic injections of rat ghrelin (rGhrelin) were examined in goats and cattle. The intra-arterial injection of 1 microg/kg BW of rGhrelin in ovariectomized goats failed to stimulate GH release, however, a dosage of 3 microg/kg BW significantly increased plasma GH concentrations (P<0.05). GH levels peaked at 15 min after the injection, then decreased to basal concentrations within 1 h after the injection. However, the secretory response to 3 microg/kg BW of rGhrelin was weaker than that of growth hormone-releasing hormone (GHRH) (0.25 microg/kg BW) (P<0.05). An infusion of 10 nmol of ghrelin into the medial basal hypothalamus (arcuate nucleus) significantly stimulated the release of GH in male calves (P<0.05). GH levels began to rise just after the infusions and peaked at 10 min, then decreased to the basal concentrations within 1 h after the injection. The present results show that ghrelin stimulates GH release in ruminants.     

Endocrine,paracrine and autocrine actions of prolactin on immune cells

The immune response is regulated by locally released factors, collectively referred to as cytokines. Data on the human immune system have convincingly demonstrated that the hormone prolactin (PRL), in addition to exerting its endocrine control on the immune system, acts as a cytokine in that it is released within the immune system and regulates the lymphocyte response by paracrine and autocrine mechanisms. Both lymphocyte and pituitary PRLs are under the control of immune factors. Synthesis of human PRL by lymphocytes is induced by T-cell stimuli, while increased release of PRL by the pituitary, observed in vivo after immune challenge, may be mediated by cytokines produced by monocyte-macrophages. Since hyperprolactinemia and hypoprolactinemia are both immunosuppressive, physiological levels of circulating PRL must be necessary to maintain basal immunocompetence. The effects of Cyclosporin (CsA) on IL-2 and PRL gene activation and the analysis of the intracellular signaling events downstream IL-2 and PRL receptors suggest coordinate actions of these two cytokines during T cell activation.     

Ghrelin promotes slow-wave sleep in humans

Ghrelin, an endogenous ligand of the growth hormone (GH) secretagogue (GHS) receptor, stimulates GH release, appetite, and weight gain in humans and rodents. Synthetic GHSs modulate sleep electroencephalogram (EEG) and nocturnal hormone secretion. We studied the effect of 4 x 50 microg of ghrelin administered hourly as intravenous boluses between 2200 and 0100 on sleep EEG and the secretion of plasma GH, ACTH, cortisol, prolactin, and leptin in humans (n = 7). After ghrelin administration, slow-wave sleep was increased during the total night and accumulated delta-wave activity was enhanced during the second half of the night. Rapid-eye-movement (REM) sleep was reduced during the second third of the night, whereas all other sleep EEG variables remained unchanged. Furthermore, GH and prolactin plasma levels were enhanced throughout the night, and cortisol levels increased during the first part of the night (2200-0300). The response of GH to ghrelin was most distinct after the first injection and lowest after the fourth injection. In contrast, cortisol showed an inverse pattern of response. Leptin levels did not differ between groups. Our data show a distinct action of exogenous ghrelin on sleep EEG and nocturnal hormone secretion. We suggest that ghrelin is an endogenous sleep-promoting factor. This role appears to be complementary to the already described effects of the peptide in the regulation of energy balance. Furthermore, ghrelin appears to be a common stimulus of the somatotropic and hypothalamo-pituitary-adrenocortical systems. It appears that ghrelin is a sleep-promoting factor in humans.     

Hormonal effects of early rearing conditions in the infant rhesus monkey

Mother-reared and nursery-reared rhesus monkeys were evaluated during the first month of life to assess the effects of early rearing on endocrine status in infancy. Plasma cortisol and growth hormone (GH) levels were measured in two conditions: (1) basal and (2) 30 min following removal from either the mother or the nursery. Nursery-reared infants had lower basal GH levels and higher cortisol levels than did mother-reared infants. Both GH and cortisol levels rose significantly following separation and reached similar levels in the mother-reared and nursery-reared infants. Mother-reared animals exhibited higher GH levels in response to a pharmacological GH-stimulation test. Thus nursery rearing of primate infants significantly affected the baseline secretion of two important endocrine systems, but did not appear to alter markedly the acute endocrine response to a psychological stressor.     

Stress-related hormones modulate cytokine expression in the head kidney of gilthead seabream (Sparus aurata)

Neuro-endocrine and immune systems closely interact in fish, and their regulation is crucial for the maintenance of good health of cultured fish. We have used the seabream head kidney to study whether stress-related hormones can modulate the immune response. For this purpose, the effects of adrenaline, adrenocorticotropic hormone (ACTH) and cortisol on the expression of pro-inflammatory cytokines (TNF-α, IL-1β, IL-6) and the anti-inflammatory cytokine TGF-β1 were determined by means of quantitative real-time PCR on isolated head kidney cells. ACTH (150 ng mL⁻¹) caused an acute increase of TNF-α and IL-6 mRNA levels as well as an inhibition of IL-1β expression. The expression of the anti-inflammatory cytokine TGF-β1 was also increased, although in a lower extent. Adrenaline (1 μM) early effects were only clear inhibiting IL-1β expression but not TNF-α, IL-6 or TGF-β1 mRNA levels, while a longer exposure to the hormone inhibited all cytokines. Moreover, cortisol (50 and 100 ng mL⁻¹) reduced the expression of all cytokines in a dose-dependent manner. Bacterial lipopolysaccharide (LPS) stimulated IL-1β expression and inhibited that of the anti-inflammatory TGF-β1, although it was ineffective on TNF-α and IL-6. In addition, adrenaline and cortisol decreased the LPS-stimulated IL-1β expression, further demonstrating their previously reported anti-inflammatory effects. The combination of ACTH and LPS, on the other hand, did not affect LPS-stimulated IL-1β expression but was effective increasing TNF-α expression. Taking all these results in consideration, we conclude that the expression of pro- and anti-inflammatory cytokines in the seabream head kidney is highly influenced by stress-related hormones, thus indicating an important role for the endocrine system in the modulation of the immune response in teleost fish.     

Differential effects of cannabinoid exposure and stress on plasma prolactin, growth hormone and corticosterone levels in male mice

Plasma prolactin (PRL) levels were reduced in stressed and non-stressed male mice after a single dose of Δ⁹-tetrahydrocannabinol (THC), the main psychoactive constituent of marihuana, while growth hormone (GH) levers were reduced only in non-stressed animals. Chronic treatment with THC did not affect PRL or GH levels under either condition. Neither acute nor repeated exposure to THC affected plasma corticosterone levels.In contrast to the affects of THC, acute exposure to cannabinol (CBN), a non-psychoactive ingredient in marihuana, increased plasma GH levels in non-stressed mice, while repeated CBN treatments reduced GH levels in stressed animals. Moreover, chronic CBN exposure resulted in decreased peripheral levels of corticosterone in both stressed and non-stressed mice, and reduced plasma PRL levels in stressed mice.Psychoactive and non-psychoactive components of marihuana can exert different effects on endocrine function and on responsivity to stress in male mice.     

STAT5 activators modulate acyl CoA oxidase (AOX) expression in adipocytes and STAT5A binds to the AOX promoter in vitro

Growth hormone (GH) diminishes adipose tissue mass in vivo and prolactin (PRL) can also modulate adipocyte metabolism. Both GH and PRL are potent activators of STAT5 and exert a variety of effects on adipocyte gene expression. In this study, we have demonstrated that GH and PRL increase the mRNA of acyl CoA oxidase in 3T3-L1 adipocytes. We also identified seven putative STAT elements in the murine AOX promoter. We observed that GH modulates protein binding to the majority of these promoter elements. However, GH induced very potent binding to -1841 to -1825 of the murine AOX promoter. EMSA supershift analysis revealed that this site was specifically bound by STAT5A, but not by STAT1 or STAT3. Taken together, these data strongly suggest that GH directly induces the expression of AOX in adipocytes through STAT5A binding to the -1841 to -1825 site within the AOX promoter. Our observations are consistent with other studies that demonstrate that STAT5 activators modulate fatty acid oxidation.     

Endocrine and non-endocrine activities of growth hormone secretagogues in humans

Growth hormone (GH) secretagogues (GHS) are synthetic peptidyl and non-peptidyl molecules which possess strong, dose-dependent and reproducible GH releasing effects as well as significant prolactin (PRL) and adrenocorticotropic hormone (ACTH) releasing effects. The neuroendocrine activities of GHS are mediated by specific receptors mainly present at the pituitary and hypothalamic level but also elsewhere in the central nervous system. GHS release GH via actions at the pituitary and (mainly) the hypothalamic level, probably acting on GH releasing hormone (GHRH) secreting neurons and/or as functional somatostatin antagonists. GHS release more GH than GHRH and the coadministration of these peptides has a synergistic effect but these effects need the integrity of the hypothalamo-pituitary unit. The GH releasing effect of GHS is generally gender-independent and undergoes marked age-related variations reflecting age-related changes in the neural control of anterior pituitary function. The PRL releasing activity of GHS probably comes from direct pituitary action, which indeed is slight and independent of both age and gender. The acute stimulatory effect of GHS on ACTH/cortisol secretion is similar to that of corticotropin releasing hormone (CRH) and arginine vasopressin (AVP). In physiological conditions, the ACTH releasing activity of GHS is mediated by central mechanisms, at least partially, independent of both CRH and AVP but probably involving GABAergic mechanisms. The ACTH releasing activity of GHS is gender-independent and undergoes peculiar age-related variations showing a trend towards increase in ageing. GHS possess specific receptors also at the peripheral levels in endocrine and non-endocrine human tissues. Cardiac receptors are specific for peptidyl GHS and probably mediate GH-independent cardiotropic activities both in animals and in humans.     

Induction of mammotroph development by a combination of epidermal growth factor,insulin, and estradiol-17beta in rat pituitary tumor GH3 cells

Several reports have indicated that prolactin-secreting cells (PRL cells) are generated from growth hormone-secreting cells (GH cells). We have shown that treatment with a combination of epidermal growth factor (EGF), insulin, and estradiol-17beta (E (2)) induces the appearance of PRL cells in pituitary tumor GH3 cells. The aim of the present study was to clarify the involvement of mitosis in the cytogenesis of PRL cells in rat pituitary and GH3 cells. The effects of the treatment with EGF, insulin and E(2) on DNA-replication were studied by detecting the uptake of bromodeoxyuridine (BrdU) into the nucleus. In cultured rat pituitary cells, BrdU-labeled PRL cells were observed irrespective of the hormone treatment. In GH3 cells, BrdU-labeled GH cells and mammosomatotrophs (MS cells) were detected; BrdU-labeled PRL cells were not detected, however, when GH3 cells were treated with BrdU for 3 hr and then immediately examined for BrdU-labeling. BrdU-labeled PRL cells were found only when GH3 cells treated with BrdU were allowed to grow for another 3 days. This finding suggests that during the additional 3-day culture, BrdU-labeled PRL cells were generated from BrdU-labeled cells other than PRL cells. These results indicate that PRL cells are transdifferentiated from GH cells or MS cells in GH3 cells by a combined treatment with EGF, insulin and E(2), while PRL cells in rat pituitaries are able to proliferate in response to the hormone treatment. Thus, there may be two pathways for cytogenesis of PRL cells: the transdifferentiation of GH cells or MS cells, and a self-duplication of PRL cells.     

Growth hormone and prolactin response to rehydration during exercise: effect of water and carbohydrate solutions

The effect of progressive rehydration with either water or a carbohydrate solution on the plasma growth hormone (GH) and prolactin (PRL) response to exercise was examined together with plasma somatostatin. Five subjects underwent four 3-h experimental sessions at 36 degrees C in which 25-min exercise periods alternated with 5-min rest periods. The sessions were conducted without fluid replacement (DH) or under rehydration with either water or isosmotic carbohydrate solutions AISO (acid) or NISO (neutral). The fluid was given every 10 min after the 1st h of exercise. Plasma GH increased significantly (p less than 0.01) under DH after 2 and 3 h of exercise; this increase was prevented by rehydration with water, AISO and NISO. Plasma glucose was significantly higher following AISO and NISO rehydration compared with DH. This possibly influenced the GH response, but there was no difference between plasma glucose levels under DH and water rehydration at any time. The solutions tended to attenuate the increase in heart rate, rectal temperature and plasma cortisol, suggesting that the lack of GH response under rehydration conditions is a result of decreasing physiological stress levels. The GH response could not be explained by plasma somatostatin, which tended to decline in all sessions. Plasma PRL did not increase in any of the sessions, confirming that exercise without rehydration is a more potent stimulator of GH than of PRL. It is concluded that progressive rehydration with water is sufficient to prevent the exercise-induced increase in plasma GH.