Response of prolactin cells to environmental calcium in the eel (Anguilla anguilla L.)

Prolactin (PRL) cell activity was investigated in eels kept in fresh water (FW), deionized water (DW) supplemented or not with Ca (2 mM), in Ca-enriched FW (10 mM), in normal (Ca 3.4 mM) or Ca-free 1/3 sea water (SW), and in SW (Ca 10.2 mM) or Ca-free SW (Ca 0.15 mM). Light-microscopic studies, including measurement of the nuclear area and cell height, showed that PRL cell activity, reduced in DW, is not affected by Ca supplementation. Activity is reduced in Ca-enriched FW, in 1/3 SW and in SW, conditions inducing an increase in the plasma sodium level. The lack of calcium in saline environments partly suppresses the nuclear atrophy occurring in SW. There is no significant correlation between external or total plasma calcium concentration and PRL cell activity. In artificial Ca-free SW, eels show a rapid increase in plasma osmolarity and sodium levels; there is a significant negative correlation between these two plasma values and the nuclear area or cell height of PRL cells. As in some other teleosts, plasma osmolarity and plasma sodium seem to play a more important role than external or internal calcium in controlling PRL secretion. This correlation is not apparent in eels kept in SW, having unstimulated PRL cells but active calcium-sensitive (Ca-s) cells in the pars intermedia.     

Calcium-sensitive cells of the pars intermedia and osmotic balance in the eel

Summary Freshwater eels were adapted to calcium-free sea water (SW) or 1/3 Ca-free SW. Survival was generally poor in Ca-free SW, although three eels were still in good condition after 19–30 days; survival in 1/3 Ca-free SW was excellent. Osmotic disturbances (increase of plasma osmolarity and sodium levels), which initially occur in Ca-free SW, were no longer detectable after 19–30 days, or in eels in 1/3 Ca-free SW after one month. Plasma calcium sharply decreases initially; it is less depressed after 19–30 days and in 1/3 Ca-free SW. Alterations in the mucus production may be involved in the osmotic changes. Under these conditions no clear stimulation of the calcium-sensitive (Ca-s) cells of the pars intermedia was registered, but in Ca-free SW (1/3 or full strength) the inhibitory effect normally observed in SW does not occur. In a hyperosmotic environment, other ion(s), possibly magnesium, may reduce the response of the Ca-s cells to a lack of environmental calcium.     

Effect of estradiol-17 β on the cytology of the liver,gonads and pituitary,and on plasma electrolytes in the female freshwater eel

Summary Female freshwater eels injected with estradiol-17 (E2) for 15–78 days appear paler and secrete more mucus than controls. The resulting strongly opalescent blood plasma indicates that vitellogenin synthesis occurs in the liver, which shows a significant hypertrophy, an increased vacuolization (lipid material) and glycogen depletion. Plasma sodium is lowered, but calcium levels are considerably increased. The gonosomatic index increases (0.92±0.1 to a maximum of 2.21). Oocytes are enlarged, but the incorporation of vitellogenin remains discrete. Gonadotrophs (GTH cells), small and scarcely visible in the pituitary of control eels, are hypertrophied and contain numerous glycoprotein granules after E2-administration. E2 may act on the pituitary and/or hypothalamus via a positive feedback to induce gonadotrophin (GTH) synthesis; GTH release seems to be very limited as indicated by the ovarian response. The differentiation of GTH cells in eels treated with fish pituitary extracts is most probably due to secretion of E2 by the ovary, which reacts on the pituitary. Various hypotheses are considered to explain the low GTH release.Thyrotrophs, somatotrophs and prolactin cells of the pituitary are stimulated. In the pars intermedia, MSH and PAS-positive cells appear less active. A possible antidopaminergic effect of E2 is discussed.E2 administration constitutes a simple and economic technique to induce the synthesis of GTH and will facilitate the biochemical and biological study of the latter hormone in eels.     

The effects of the administration of testosterone propionate alone or with phenobarbitone and of testosterone metabolites to neonatal female rats

The effects of graded doses of testosterone propionate administered to female rats on Day 4 of postnatal life have been determined. The incidence of failure of ovulation as adults was related to the dose. With increasing dosage over the range 1–100 μg no significant evidence of a progressive decrease in immunoassayable luteinizing hormone concentration in the plasma or anterior pituitary was obtained. The reported protective action of sodium phenobarbitone when administered with testosterone propionate could not be confirmed. Single injections of 100 μg of testosterone, dihydrotestosterone, 5 α-androstanediol, or a combination of the two latter compounds had no masculinizing effect. When the 17-β propionate derivatives of these compounds were administered at the same dose level only testosterone propionate had a masculinizing effect.     

Calcium-sensitive cells of the pars intermedia and osmotic balance in the eel

Summary The structure of the PAS-positive calcium-sensitive (Ca-s) cells of the pars intermedia was investigated in eels kept in deionized water (DW) or fresh water (FW) supplemented with Ca²⁺ or Mg²⁺. Ca²⁺ (2mM) reduces considerably the response to DW; plasma osmolarity, Na⁺ and Ca²⁺ levels are not significantly affected. In eels adapted to DW for 21 or 28 days, showing highly stimulated Ca-s cells, an addition of CaCl₂ for 2 days inhibits the release of granules, but does not immediately block their synthesis and the mitotic activity. The nuclear area is reduced, osmolarity and plasma sodium increase, but the rise in calcium is not always significant. Magnesium, at a 10-fold greater concentration than in FW (2 mM), slightly inhibits the release of secretory granules without reducing other indicators of stimulation. In Ca-enriched FW, the Ca-s cells appear inactive. These data show that the PAS-positive cells in the pars intermedia of the eel are calcium-sensitive, similar to those of the goldfish; their role in calcium regulation is briefly discussed.     

Changes in blood osmolarity,electrolytes, and metabolites among adult rats treated with a neurotoxic dose of MSG1

Adult rats were given large doses of MSG (4 g/kg) or isosmolar amounts of sodium chloride or L-alanine intraperitoneally or by forced intubation. Blood or plasma samples from these rats where assayed for osmolarity, hematocrit, pH, and concentrations of protein, sodium, potassium, chloride, calcium, magnesium, and urea nitrogen. Intraperitoneal MSG produced characteristic hypothalamic lesions; MSG by gavage failed to do so. Intraperitoneal MSG also caused major increases in plasma osmolarity, hemoconcentration, hypovolemia, alkalosis, hypernatremia, and uremia; plasma levels of chloride and potassium fell significantly. Administration of MSG by gavage caused much smaller changes in plasma osmolarity and sodium, and no significant changes in hematocrit, plasma protein or plasma urea nitrogen. Administration of sodium chloride or L-alanine (agents not known to produce the characteristics MSG brain lesions) caused some, but not all, of the metabolic changes seen after MSG. These observations suppot the hypothesis that the ability of large, concentrated doses of MSG to produce brain lesions in susceptible species involves a two-step process, i.e., initial damage to the blood-brain barrier for glutamate, followed by entry of the circulating amino acid into the extracellular space of the brain.     

Effects of substance P and neurotensin on growth hormone and thyrotropin release in vivo and in vitro

Conscious ovariectomized (OVX) rats bearing a cannula implanted in the third ventricle were injected with 2 μl of 0.9% NaCl containing varying doses of substance P (SP) or neurotensin (NT) and plasma GH and TSH levels were measured by RIA in jugular blood samples drawn through an indwelling silastic catheter. Control injections of physiologic saline iv or into the third ventricle did not modify plasma hormone levels. Intraventricular injection of SP or NT at doses of either 0.5 or 2 μg elevated plasma GH concentrations within 5 min and they remained elevated for 60 min. Third ventricular injection of similar doses of SP or NT had no effect on plasma TSH. An intermediate dose of 1 μg of SP or NT given iv had no effect on plasma GH but NT elevated plasma TSH. Incubation of hemipituitaries from OVX rats with varying doses of SP or NT did not alter GH release into the medium but TSH release was enhanced with NT at doses of 100 or more ng/ml of medium. It is suggested that SP acts centrally to stimulate growth hormone-releasing factor (GRF) or to inhibit somatostatin release and thereby enhance GH release and that NT acts directly on the pituitary to stimulate TSH release.     

The hypothermic effect of veratridine injected into the lateral cerebral ventricle of the cat

Initial injections of 1–10 μg of veratridine into the lateral cerebral ventricle of the cat produced dose-related hypothermic responses. Doses smaller than 1 μg were without effect. Repeated administration of 10 μg doses of veratridine at intervals of one or two days produced tolerance. The hypothermic effect of veratridine is opposite to what would be predicted from the hypothesis of thermoregulatory set point control by sodium and calcium ions because veratridine enhances sodium ion conductance in neural tissue.     

Responses of the ultimobranchial body in eels (Anguilla anguilla L.) maintained in sea water and experimentally matured,to injections of synthetic salmon calcitonin

The effect of a synthetic salmon calcitonin (SCT) treatment on ultimobranchial body (UB) activity in eels (Anguilla anguilla L.) maintained in seawater and submitted to experimental maturation, has been studied histologically. 2. The activity of the glands of a control group of eels maintained in sea water was taken as a reference. 3. The UB parenchyma showed a marked atrophy in the fish treated with SCT alone and serum calcium decreased significantly in this group. 4. Immature female silver eels receiving carp pituitary extract (CPE 1 mg/100 g body wt. per injections) until complete maturation presented high hypercalcemia associated with cellular hypertrophy and hyperplasia in the UB. 5. SCT treatment did not prevent the hypercalcemia provoked by CPE injections. UB activity was strongly increased in this case. 6. These data indicate that the activity of the UB in eels varies with both physiological and experimental hypercalcemia, and responds to SCT injections.     

Effects of Hypophysectomy and Prolactin Replacement on Eel Kidney Structure During Adaptation to Sea Water

After 20 to 50 days in sea water (SW), regressive changes of the kidney occur at the same rate in intact and hypophysectomized eels (Anguilla anguilla). In SW, ovine prolactin (oPRL) increases plasma electrolytes and restores a fresh water (FW) kidney structure; cell height and nuclear area increase in main segments of the nephron: first (P1) and second proximal (P2), distal (D) and initial collecting (C) tubules. A differentiation of new tubules also occurs. This effect is less intense after hypophysectomy and greater in FW. A dose of 10 μg/g body weight/day for 10 days in SW produces some harmful renal effects, barely detected at 6 μg/g/day. The kidney plays a minor role in osmotic adjustment in SW when PRL secretion is reduced (intact eels) or suppressed (hypophysectomized); PRL treatment reverses effects of SW adaptation. An inhibition of gill sodium extrusion may explain the high blood sodium level; however, kidney histological changes suggest a renal participation, perhaps through reduced water permeability as in Platichthys.     

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.     

Effect of parachlorophenylalanine,a brain serotonin depletor,on the prolactin cells of the eel pituitary

Summary Parachlorophenylalanine (pCPA), an inhibitor of tryptophan hydroxylase depleting brain serotonin in higher vertebrates, was injected into freshwater eels. After 4 or 6 injections (200 mg/kg/day) or 10 injections (100 and 140 mg/kg/day) plasma electrolyte values were not modified. Prolactin (PRL) cells appear less active, with increased granulation after 6 and 10 injections. Their cell height (P < 0.01) and their nuclear area (P < 0.001) are reduced. As injections of 5-hydroxytryptophan stimulate PRL cells, these findings suggest that a serotoninergic system may participate in the regulation of PRL cell activity. Brain serotonin depletion probably decreases granule release in PRL cells, a result comparable to the lowering action of pCPA on the plasma PRL level in some mammals.     

雄烯二酮和甲基睾酮诱导雄性日本鳗鲡性腺发育的作用

多次埋植雄激素雄烯二酮（ADSD）或甲基睾酮（MT）均可促进雄性日本鳗鲡（Anguilla japonica)性腺发育成熟,明显提高脑和垂体mGnRH,垂体GtH含量,埋植3次后,MT处理组的GSI及垂体GtH含量显著高于ADSD处理组,MT处理组血清GtH含量在第1次埋植后显著升高,而ADSD处理组在第4次埋植后才显贰高于对照组。这些结果表明：埋植ADSD和MT可反馈作用于雄性日本鳗鲡脑和垂体,促进GnRH和TtH的合成和分泌,进一步诱导精巢发育。而且MT的作用效果较ADSD快。     

The effect of cholecystokinin octapeptide on pituitary-adrenal hormone secretion

The purpose of this investigation was to determine the influence of cholecystokinin octapeptide (CCK-OP) on pituitary-adrenal hormone secretion. CCK-OP at a dose of 5 μg/kg (i.p.) elevated plasma corticosterone from 27 to 43 μg/100 ml in one experiment and from 12 to 50 μg/100 ml in a second experiment: Lower doses of CCK-OP (0.5 μg/kg) elevated corticosterone from 12 μg/100 ml to 20 μg/100 ml. CCK-OP (1, 10, and 100 ng/ml) had no effect on ACTH-induced corticosterone released by isolated adrenal cells in vitro when tested in the presence of 50 pg of ACTH_1?24. 100 and 500 ng of CCK-OP resulted in an increased pituitary ACTH release equal to 123% (n.s.) and a 206% (P < 0.05) of control, respectively. In comparison, a $\text{3}\text{5}$ hypothalamic stalk median eminence equivalent increased ACTH release to 313% of control (P < 0.05). The exact mechanism of this CCK effect on pituitary ACTH release is unknown. Although it is likely that the direct effects on the pituitary in vitro represent a pharmacologic and not a physiologic effect of this peptide, in vivo doses are between doses used for pancreatic effects and satiety effects suggesting that there may be a physiologic stimulating action of this peptide on the hypothalamic-pituitary-adrenal axis but at a level above the adrenal and pituitary.     

Implication of growth hormone in experimental induction of vitellogenesis by estradiol-17 beta in female silver eel (Anguilla anguilla L.)]

The effect of different preparations of growth hormone (GH) was assayed with 17 beta-estradiol on vitellogenesis in hypophysectomized or normal female silver eels. Vitellogenin (Vg) plasma levels were taken as the index of hepatic vitellogenesis. The E2 doses were chosen to give the same pattern for the plasma Vg level as in the controls. They decreased or remained undetectable in hypophysectomized or normal animals. GH also failed to induce alone a significant modification. When E2 was injected together with a GH, plasma Vg levels were 5.13 +/- 1.30 times higher with salmon GH in hypophysectomized eels and 2.01 +/- 0.25 times higher with bovine GH in normal eels. GH is shown to enhance the effects of E2 on hepatic vitellogenesis induction in a teleost.     

Selenium prevents mercuric chloride induced acute osmoregulatory failure without glutathione peroxidase involvement in the black bullhead (Ictalurus melas)

The relationship between coelomic injections of mercuric chloride doses and osmoregulatory responses was measured. Response parameters were weight increases and blood osmolarity decreases 72 hr after dose administration. Massive edema and large decreases in blood osmolarity could be completely prevented by subcutaneous injections of equimolar sodium selenite. Mercury induced damage did not involve alterations of either selenium-dependent or non-selenium-dependent glutathione peroxidase activities.     

Effects of estradiol and mammalian LHRH on the ultrastructure of the pars distalis of the eel

Summary Male silver eels were injected with estradiol-17 (E2) to induce the development of gonadotropic (GTH) cells. They were subsequently injected with luteinizing hormone-releasing hormone (LHRH). Exocytotic figures and the lysis of some large globules and granules were observed. Morphometric studies showed a significant increase in the percentage of vacuoles after 4 and 6 injections of LHRH and a slight but significant decrease of granules. This response did not, however, occur in all GTH cells which never appeared completely degranulated and did not reach a vesicular stage.Hemi-pituitaries of E2-pretreated eels were incubated with or without LHRH (20 min to 2 h). Although typical exocytoses were not detected, an increased number of small granules near the basal lamina and lytic processes (globules with a raspberry-shaped structure, granules with variable electron density) were observed in the LHRH-incubated hemi-pituitaries compared with those kept in a control medium. The structure of GTH cells and their response to LHRH has been studied only under conditions of artificial stimulation, and their functional similarity to GTH cells of spontaneously maturing eels is discussed.Large female eels had unstimulated GTH cells. Growth hormone (STH), thyrotropic (TSH) and prolactin (PRL) cells were stimulated after E2 and LHRH. As with GTH cells, they regressed slowly after treatment was discontinued.     

Effect of pimozide on the cytology of the eel pituitary

Pimozide, a specific blocker of dopaminergic receptors, was injected for 4 to 9 days in freshwater (FW) eels or eels acclimated to sea water (SW), for 10 to 30 days. The daily dose was 100 or 200 microgram/100 g. In FW, pimozide induces a nuclear hypertrophy in the prolactin (PRL) cells of eels; these elongated cells increase in height. The amount of erythrosinophilic granules in the cytoplasm, initially reduced, increases. Plasma electrolyte values are not modified: only the plasma sodium level slightly rises with the higher dose. In SW, PRL cells appear less active. After 10 days, this hypoactivity is not yet fully evident; pimozide stimulates PRL cells without affecting electrolyte values. After 1 month in SW, PRL cells are stimulated with pimozide and a slight regranulation may occasionally occur. The response in SW is never as marked as it is in FW; a high dose is not more effective than a low one. The higher dose significantly raises Na+, Ca2+ and Cl- plasma levels. These data suggest that prolactin synthesis and release increase with pimozide. They corroborate the hypothesis of a hypothalamic inhibitory control on PRL secretion mediated through dopaminergic fibers in the eel, but other factors may also be involved in this regulation in addition to the effect of salinity.     

The effect of water acidification on prolactin cells and pars intermedia PAS-positive cells in the teleost fish Oreochromis (formerly Sarotherodon) mossambicus and Carassius auratus

Summary Although exposure to acid water (pH 3.5) induces severe and prolonged reduction in plasma osmolarity and total plasma calcium concentration in tilapia (Oreochromis mossambicus) and goldfish (Carassius auratus), the responses of the hypophyseal cells are clearly different. In tilapia, the size of the rostral pars distalis of the pituitary gland is enlarged as a result of the increase in size and number of prolactin cells. The pars intermedia PAS-positive (PIPAS) cells are not noticeably changed. Conversely, in goldfish, prolactin cells are unaffected, whereas the number of enlarged PIPAS cells increases markedly. Stimulation of prolactin secretion may be responsible for the partial restoration of plasma osmolarity and calcium levels observed in tilapia after two weeks exposure to acid water. Prolactin cells apparently play a role in the adaptation to acid stress by counteracting osmoregulatory disturbances. Goldfish show no restoration of plasma osmolarity during the course of the experiment. Plasma calcium levels tend to increase. Although prolactin may have an osmoregulatory function in goldfish under steady state conditions, goldfish prolactin cells do not seem to participate in the physiological adaptation to environmental changes that disturb water and ion homeostasis. The function of PIPAS cells in tilapia remains unclear and is apparently unconnected with ion regulation. The observations on these cells in goldfish are consistent with the hypercalcemic activity suggested for them.     

Effects of exogenous melatonin on human pituitary and adrenal secretions. Hormonal responses to specific stimuli after acute administration of different doses at two opposite circadian stages in men

We evaluated the effect of an acute oral administration of 2 dosages (100 and 1 mg) of melatonin (MT) vs placebo (PL) on pituitary release of LH, FSH, TSH and PRL after GnRH + TRH and on the adrenocortical release of cortisol, aldosterone and progesterone after ACTH in healthy adult males. We carried out a double blind study on 6 volunteers in winter-early spring, at 2 opposite phases of the circadian cycle: 08(00) and 20(00). Injection of GnRH (100 micrograms), TRH (200 micrograms) and ACTH (10 micrograms of the synthetic analogue ACTH 1-17, alsactide) was performed 1 h after MT or PL ingestion. The measurement of plasma MT levels confirmed its effective gastrointestinal absorption after both doses. The hormonal patterns were superimposable after MT and PL. A higher response of FSH, PRL, cortisol and aldosterone was observed in the evening vs morning protocols independently of previous treatment (MT or PL). Our data demonstrate that the acute oral administration of 2 different doses of MT at 2 opposite circadian stages is ineffective as to the modification of a variety of pituitary and adrenocortical responses in human male subjects. The circadian chronosusceptibility of pituitary and adrenocortical cells to specific stimuli deserves interest to future investigation.