Dual effect of osmotic cell swelling on prolactin secretion by acutely dispersed adenohypophyseal cells

Cell swelling induced by acute exposure to the permeant molecule urea or by medium hyposmolarity evoked a prompt PRL secretory burst from dispersed rat anterior pituitary cells. However, during continuous exposure greater than or equal to 10 min to these conditions inhibition of basal and TRH-induced PRL secretion occurred and there was an "off" burst of PRL secretion following return to basal conditions. Compared with continuous TRH stimulation which causes biphasic PRL secretion with a rapid high amplitude first phase secretory burst followed by a sustained low level second phase of secretion, cell swelling induced only "first phase" secretion. Removing Ca2+ from the medium or adding 50 microM verapamil markedly depressed the "off" secretory burst following return to basal conditions but had no effect on the initial high amplitude burst. Our data suggest that the effect of cell swelling on PRL secretion is complex and that there are at least two mechanisms for PRL secretion in normal anterior pituitary cells; these are differently affected by cell swelling and Ca2+ influx.     

Significant qualitative differences exist between thyrotropin and prolactin secretory dynamics induced by pituitary cell swelling

Cell swelling produced by a variety of techniques is a potent stimulus intensity-related inducer of an immediate secretory burst of thyroid-stimulating hormone (TSH) and prolaction (PRL) secretion from anterior pituitary cells. A 2-min "square wave" exposure to either hyposmolarity or isotonic urea induced stimulus intensity-correlated TSH and PRL secretory bursts peaking within 3 min, but the PRL zenith occurred 1 min later than that of TSH. With continuous exposure to these stimuli, TSH secretion rapidly decreased and remained only slightly above the unstimulated rate after 5 min. PRL secretion fell to and remained below the unstimulated level after 10 min. After stopping the stimulus, another secretory burst ("off" response) occurred with PRL, but not with TSH. A progressive "ramp" increase in stimulus intensity over 18 min induced a corresponding gradual increase in TSH secretion; there was a progressive depression, rather than increase, in PRL secretion during the stimulus ramp, with an off response secretory burst when the stimulus was discontinued. Removal of extracellular Ca2+ or addition of verapamil to the medium did not alter the dynamics of hyposmolarity-induced TSH secretion, but markedly altered those of PRL secretion; there was no off response PRL secretion and a hyposmolar ramp induced a corresponding gradual increase in PRL secretion, with a return to baseline after removing the stimulus. The dramatic qualitative differences in the response of the thyrotroph and lactotroph may reflect differences between the cell types in the size of secretory vesicles, membrane potential, the mechanism of exocytosis, and/or the role of Ca2+ influx across the plasmalemma.     

Laminin induces formation of neurite-like processes and potentiates prolactin secretion by GH3 rat pituitary cells

Tumor-derived GH3 rat pituitary cell lines are widely utilized to study mechanisms of prolactin secretion and responsiveness to secretagogues. These cells served here as a model with which to study relationships between shape and function. When GH3 cells were routinely grown in serum-supplemented medium, they exhibited the polygonal phenotype of epithelial cells, with scarce secretory granules. In contrast, when seeded in a serum-free medium, they attached loosely and contained more secretory granules. In both cases, they released prolactin in a nonpolarized manner. We show in the present work that laminin extracted from Englebreth-Holm-Swarm (EHS) tumors was a potent attachment and spreading factor for GH3/B6 cells seeded in serum-free medium. Moreover, it induced the formation of neurite-like processes, which were increased in number and length by chronic treatment with a specific secretagogue, thyroliberin (TRH). These changes in cell shape were correlated with a potentiation of prolactin secretion, both basal and TRH-stimulated. Furthermore, using immunocytochemistry and electron microscopy, we revealed--at the dilated tip of processes--an accumulation not only of prolactin, but also of synaptophysin, a vesicle membrane marker, and of several organelles, such as secretory granules, smooth vesicles, dense bodies and mitochondria. The cytoplasmic processes contained long parallel bundles of microtubules and showed a strong immunoreactivity for beta 2-tubulin. In addition, we found immunocyto-chemical evidence for the presence of 200-k Da neurofilament protein in GH3/B6 cell processes as well as in neurites of cultured hypothalamic neurons. We conclude that, in GH3/B6 cells, laminin induced the differentiation of neurite-like processes, which were the site of polarized organelle transport and exhibited some neuronal markers.     

The rate of increase not the amplitude of cytosolic Ca2+ regulates the degree of prolactin secretion induced by depolarizing K+ or hyposmolarity in GH4C1 cells

Depolarizing K+ and medium hyposmolarity caused striking rises in both cytosolic free Ca2+ concentration [( Ca2+]i) and prolactin (PRL) secretion in GH4C1 cells, which were completely blocked by removal of medium Ca2+. However, the increase in [Ca2+]i and PRL secretion induced by hyposmolarity was clearly slower than that induced by K+. Although there was a good correlation between the zenith of PRL secretion and [Ca2+]i induced by various intensities of K+ or hyposmolarity, the regression slopes were significantly different between the K(+)-and hyposmolarity-induced changes (P less than 0.01). There was a good correlation between the maximum rate of change in PRL secretion and that of the increase in [Ca2+]i when the data from the 2 secretagogues were combined (r = 0.994, P less than 0.001, N = 9). We suggest that the rate of increase in [Ca2+]i may be more important than the amplitude of [Ca2+]i in stimulating PRL secretion.     

Cell swelling induced secretion of TRH by posterior pituitary,hypothalamic paraventricular nucleus and pancreatic islets: effect of L-canavanine

The aims of this study were to test if ethanol induces thyrotropin-releasing hormone (TRH) secretion in vitro from the posterior pituitary and hypothalamic explants by a mechanism involving cell swelling, and to characterize the pathway of stimulated secretion. Ethanol, at a concentration of 80 mM, stimulated the release of TRH from the posterior pituitary, the hypothalamic paraventricular nucleus, the median eminence, and the brain septum, when administered only in isosmolar but not in hyperosmolar medium. This indicates the involvement of a cell swelling-inducing mechanism. L-canavanine in a concentration of 3 mM, increased the basal and hyposmosis-induced TRH secretion from the posterior pituitary and the paraventricular nucleus, and both basal and ethanol-induced TRH secretion from isolated pancreatic islets. This indicates the presence of both constitutive and regulatory secretory pathways. Our results suggest that cell swelling induces exocytosis from clathrin coated granules.     

Inhibition by dopamine of 86Rb efflux and hormone secretion from bovine anterior pituitary cells perifused in the presence of acetylcholine or TRH

The effects of dopamine (10(-5) M) on growth hormone and prolactin secretion and the fractional rate of 86Rb efflux were investigated using perifused bovine pituitary cells. Dopamine decreased the control efflux rate, prevented the rise caused by thyroliberin (10(-7) M) in the presence of 3-isobutyl-1-methylxanthine (10(-4) M) and greatly decreased the rise caused by acetylcholine (2.5 x 10(-5) M). Under these conditions it inhibited the prolactin secretion but it had no effect on growth hormone secretion induced by either treatment. Dopamine receptors in lactotrophs are therefore coupled to secretion and potassium permeability, but if somatotrophs contain dopamine receptors they are coupled only to K+ efflux.     

Pertussis toxin blocks the inhibitory effects of somatostatin on cAMP-dependent vasoactive intestinal peptide and cAMP-independent thyrotropin releasing hormone-stimulated prolactin secretion of GH3 cells

It was shown that somatostatin (SRIF) inhibited cAMP-dependent vasoactive intestinal peptide (VIP)-stimulated prolactin (PRL) release by a GH3 clonal strain of rat pituitary tumor cells and decreased basal PRL secretion and inhibited PRL release in response to thyrotropin releasing hormone (TRH) whose action was independent of prior synthesis of cAMP. Pretreatment of these cells with pertussis toxin prevented SRIF's inhibitory effects on basal and TRH-stimulated hormone secretion as well as its VIP-stimulated responses. The blockade of SRIF's inhibitory effect on the actions of TRH or VIP was dependent on both the duration of preincubation and concentration of the toxin and was correlated with the ability of the toxin to catalyze the ADP-ribosylation of the 39,000-Da membrane protein. It is likely that this pertussis toxin substrate is involved in signal transduction of SRIF on cAMP-dependent actions of VIP and cAMP-independent action of TRH. However, the mechanism of SRIF's action on TRH is not clear, since SRIF did not affect the intracellular responses by TRH, neither intracellular Ca2+ mobilization nor the increase of 1,2-diacylglycerol formation following the breakdown of polyphosphoinositides.     

Hyposmolar stimulation of secretion of thyrotropin, prolactin, and luteinizing hormone does not require extracellular calcium and is not inhibited by colchicine, cytochalasin B, ouabain, or tetrodotoxin

Hyposmolar stimulation of thyroid-stimulating hormone, prolactin, and luteinizing hormone secretion by dispersed perifused rat pituitary cells was not depressed by removal of Ca2+ from the perifusion medium or by 0.1 mM colchicine, 20 microM cytochalasin B, 0.1 mM ouabain, or 3 microM tetrodotoxin. The secretory response induced by medium hyposmolarity or by thyrotropin-releasing hormone was not appreciably different at 23, 37, or 43 degrees C, but was markedly reduced or abolished when the experiments were performed at 1 degree C. These data indicate that microtubules or microfilaments, transport of extracellular Ca2+ into the cytoplasm, and plasmalemma ion transport mechanisms sensitive to ouabain or tetrodotoxin are not essential components of the mechanism by which extracellular hyposmolarity induces secretion.     

Changes of cell morphology and prolactin secretion induced by 2-Br- alpha-ergocryptine, estradiol, and thyrotropin-releasing hormone in rat anterior pituitary cells in culture

The secretion of prolactin in cultured pituitary cells was studied in correlation with the cellular changes induced by stimulatory or inhibitory agents. The techniques used in this study were: radioimmunoassay, immunocytochemistry, scanning (SEM) as well as transmission (TEM) electron microscopy. Prolactin secretion was stimulated by 17 beta-estradiol (10 nM) as well as thyrotropin- releasing hormone (TRH) (3 nM) and inhibited by 2-Br-alpha-ergocryptine (CB-154) (1 muM). The total prolactin (release and cell content) increased between 2 and 8 d of estradiol treatment, indicating an increase of both synthesis and release of prolactin. This finding was in agreement with TEM observations because, in estradiol-treated prolactin cells, the Golgi saccules were distended and Golgi elements were increased, thus indicating increased synthetic activity of these cells. The addition of TRH over a 4-h period resulted in a significant degranulation of prolactin cells. In contrast, prolactin secretory granules became accumulated in the cells after CB-154 treatment for a period ranging from 4 to 24 h. In agreement, light microscope immunocytochemistry showed an increased reaction for prolactin after short-term (< 24 h) incubation with CB-154. Because prolactin cells represent approximately 70% of the glandular cell population as revealed by immunocytochemistry, it was then possible to observe the changes of cell surface by SEM. In most cells, estradiol and TRH led to an increase in the number and prominence of microvilli and blebs, whereas CB-154 treatment resulted in a slightly decreased number of microvilli and an increased occurrence of membrane foldings. This report thus provides morphological evidence for the stimulatory effects of estradiol and TRH, and the inhibitory effects of CB-154 on prolactin secretion in pituitary cells in primary culture. These data, moreover, show that acute changes in secretory activity of prolactin-secreting cells are accompanied by marked changes of their morphological characteristics.     

Cell cycle duration and time of DNA synthesis in binucleate cells induced inV. faba meristems by caffeine or isobutyl-methylxanthine

Summary Lateral roots ofVicia faba were treated with a solution of 5-aminouracil (3.93×10^–3M) for 6 hours. After 15 hours roots were recovering from the temporary inhibition of mitosis induced by 5-AU and were approaching peak mitotic indices; they were then treated with 0.1% caffeine or 0.1% isobutylmethylxanthine (IBMX) for 1 hour. Treatment with methylxanthines when the mitotic index was high gave relatively high yields of binucleate cells, 3.8 to 7.5%. DNA synthesis, cell cycle duration and nuclear growth were determined for binucleate cells. Caffeine induced binucleate cells underwent a marked reduction in nuclear volume, from 1,074 m³ at 1+1 hours to 534 m³ at 1+14 hours. Only 15% of these binucleates entered S phase; those that did so were in mitosis or had divided by 1+14 hours. We conclude that 85% of the binucleate cells are so inhibited by caffeine that their G₁ is extended to>14 hours or that they are no longer proliferating cells. IBMX-induced binucleate cells, by contrast, did enter S phase and many of them also divided. Though in IBMX-induced binucleate cells there was also a decrease in nuclear volume up to 1+10 hours, subsequently mean nuclear volume increased e.g. at 1+16 and 1+18 hours. Both caffeine and IBMX treatments resulted in decreases in mean volume of prophase nuclei of mononucleate cells; this is further evidence that both methylxanthines inhibit the macromolecular synthesis required to sustain nuclear growth. It also suggests that nuclear division can be initiated at considerably lower nuclear volumes than those of untreated cells. We suggest that caffeine may act as a mimic of the normal mechanism that regulates the switch from a proliferating to a non-proliferative condition.     

Effect of glucosamine and related compounds on the degranulation of mast cells and ear swelling induced by dinitrofluorobenzene in mice

AimsGlucosamine has been used safely to relieve osteoarthritis in humans, but the precise mechanism underlying its efficacy is still unclear. In this study, we investigated the direct effects of glucosamine and related compounds on mast cell mediated inflammation using cultured mast cells and an animal model.Main methodsDinitrophenyl (DNP)-IgE-sensitized rat basophilic leukemia RBL-2H3 cells were treated with glucosamine-HCl (GlcN-HCl), N-acetylglucosamine (GlcNAc), chitin oligomer or chitosan oligomer. Cells were stimulated by DNP-BSA to induce degranulation and released β-hexosaminedase was determined colorimetrically to measure the degree of degranulation. Dinitrofluorobenzene (DNFB) sensitized BALB/c mice were administrated orally with 1 or 0.1 mg GlcN-HCl or GlcNAc for 6 days. One hour after the final administration, mice were challenged by DNFB to induce ear swelling.Key findingsGlcN-HCl significantly inhibited the antigen-induced degranulation of RBL-2H3 cells at higher than 0.01 mg/mL for 24 h-treatment while GlcNAc, a chitin oligomer and a chitosan oligomer had no effect. GlcN-HCl also suppressed intracellular calcium mobilization. GlcN-HCl and GlcNAc significantly suppressed the antigen-induced up-regulation of TNF-α and IL-6 mRNA. Ear swelling and histamine levels of plasma and ear in DNFB-treated mice were significantly suppressed by oral administration of GlcN-HCl or GlcNAc (0.1 and 1 mg) for 6 days.SignificanceOur results strongly suggest that GlcN-HCl and GlcNAc have anti-inflammatory effects in vivo by suppressing the activation of mast cells.     

Dehydroepiandrosterone inhibits the activation and dysfunction of endothelial cells induced by high glucose concentration

Dehydroepiandrosterone (DHEA), an adrenal steroid, has a protective role against diabetes; however, its mechanisms of action are unknown. Here, we focus on the effect of DHEA on the activation of endothelial cells induced by a high concentration of glucose. Adhesion on U937 cells, expression of adhesion molecules, production of ROS and NO, expression of eNOS, and translocation of NF-κB were evaluated in human umbilical vein endothelial cells (HUVEC) treated with high concentrations of glucose, DHEA, or both. High concentrations of glucose (>20mM) induced an increase in adhesion, an increment in mainly E-selectin and PECAM-1 expression, as well as in ROS and NO production, eNOS expression, translocation of NF-κB, and degradation of its inhibitor IκB-α. DHEA abolished adhesion and the increase of E-selectin, ICAM-1, VCAM-1, and PECAM-1 induced by glucose. In addition, DHEA completely blocked oxidative stress and decreased translocation of NF-κB and the degradation of IκB-α induced by glucose. These results suggest that DHEA protects against the activation of endothelial cells induced by high concentrations of glucose, indicating that DHEA could be useful in the treatment of hyperglycemia and diabetes.     

Structural changes in the innercortex cells of soybean root nodules are induced by short-term exposure to high salt or oxygen concentrations

After a 2 h exposure of intact soybean nodules to high concentrations of NaCl (100mol m_?3) or oxygen (8OkPa O₂), morphometric computations carried out using an image analysis technique on semi-thin sections showed that both treatments induced a decrease in the area of the inner-cortex cells, which were then characterized by a tangential elongation. In contrast, no significant change in area occurred in the middle-cortex cells although their elongation decreased. Electron microscopic observations showed that in the inner-cortex cells changes included the presence of wall infoldings, an enlarged periplasmic space and a lobate nucleus whose chromatin distribution differed from that of the control. Structural changes also occurred in the endoplasmic reticulum, microbodies, mitochondria and plastids. From several of these changes, which are similar to those noted in osmocontractil cells in response to external stimuli, it can be hypothesized that the inner cortex may provide a potential mechanism for the control of oxygen diffusion through the nodules.     

Characteristics of the effect of estradiol on prolactin secretion by adenohyophyseal cells from intact and ovariectomized rats in primary monolayer cultures]

Estradiol directly stimulated the secretion of prolactin by the adenohypophyseal cells of intact rats in a monolayer culture. Complex interactions between estradiol and some other regulators of the hypophyseal lactotropic function were revealed. It was established that changes in prolactin synthesis and secretion in ovariectomized rats persisted for 3--4 days of adenohypophyseal cell cultivation in vitro.     

Characterization of antibody-dependent cellular cytotoxicity induced by the plasma from persons living with HIV-1 based on target cells with or without CD4 molecules

Antibody-dependent cellular cytotoxicity (ADCC) is essential for reducing the reservoir of latent virus in persons living with HIV-1 (PLWH). This study evaluated the plasma's ADCC activity from treatment-naïve PLWH based on target cells with or without CD4 molecules. We found that the distribution of plasma activities to mediate ADCC is different between 8E5 cells (CD4-) and NL4-3-infected CEM.NKR.CCR5 cells (CD4+). There was no correlation between the IgG-binding ability and ADCC activity. The binding ability of the 8E5 cells (2.2%) to A32 antibody was significantly lower than that of CEM.NKR.CCR5 cells (69.3%). After incubating the 8E5 cells with CD4-mimetic compound, it did not increase the binding ability with the A32 antibody. After incubation with CD4+ T cells, the binding ability of the 8E5 cells for the A32 antibody increased significantly, which implies that the conformation of the Env protein open and expose the CD4-induced epitopes. The effect of the ADCC in plasma directly applied to 8E5 cells was positively correlated with that of the NL4-3-infected CEM.NKR.CCR5 cells. In conclusion, ADCC induction in plasma was general in the treatment-naïve PLWH. The ADCC activity levels differed when target cells with or without CD4 molecules were evaluated; When designing experiments on ADCC, full consideration should be given to this immune phenomenon.     

HLA class I molecules regulate IFN-gamma production induced in NK cells by target cells, viral products, or immature dendritic cells through the inhibitory receptor ILT2/CD85j

Recent advances support an important role for NK cells in determining immune responses beyond their cytolytic functions, which is supported by their capacity to secrete several cytokines and chemokines. In particular, NK-derived IFN-gamma has proven to be fundamental in shaping adaptive immune responses. Although the role of inhibitory NK receptors (iNKR) in the regulation of cytotoxicity has been widely explored, their involvement in the control of cytokine production has been scarcely analyzed. Specifically, no data are available referring to the role of the iNKR ILT2/CD85j in the regulation of IFN-gamma secretion by NK cells. Published data support a differential regulation of cytotoxicity and cytokine expression. Thus, formal proof of the involvement of HLA class I in regulating the production of cytokines through binding to ILT2/CD85j has been missing. We have determined the response of human NK-92 and primary human ILT2/CD85j(+) NK cells from healthy donors to target cells expressing or not HLA class I. We found specificities of HLA class I-mediated inhibition of IFN-gamma mRNA expression, protein production, and secretion consistent with the specific recognition by ILT2/CD85j. We also found inhibition of IFN-gamma production by ILT2/CD85j(+) T cells in response to superantigen stimulation. Furthermore, ligation of ILT2/CD85j inhibited the production of IFN-gamma in response to poly(I:C), and blocking of ILT2/CD85j-HLA class I interactions increased the secretion of IFN-gamma in NK/immature dendritic cell cocultures. The data support a role for self HLA class I in the regulation of IFN-gamma secretion at the mRNA and protein levels by interacting with the iNKR ILT2/CD85j.     

Comparison in genetically hyperlipoproteinemic and normal rats of the secretion of lipids synthesized by isolated livers perfused with isotopic oleic acid and glycerol at high concentrations

After perfusing isolated livers of Zucker fa/fa ad Fa/- rats with loads of [9,10-3H2] oleic acid (346 mumol) and [1-14C] glycerol (115 mumol), glycerol inhibited the hepatic secretion of triacylglycerol and phospholipids in the two groups of rats. However, the amount of acylglycerols synthetized from these exogenous substrates is slightly higher in the obese rats than in the normal rats. These results suggest that glycerol, present in high amounts in blood of fa/fa rats, failed to regulate triacylglycerols and phospholipids secretion.     

Changes in the size and number of secretion granules in the rat exocrine pancreas induced by feeding or stimulation in vitro

Summary The size, number and volume per cell of secretion granules in rat exocrine pancreas have been measured using stereological techniques. The changes which occur as a result of feeding starved animals (90 min) or stimulating lobular fragments in vitro with carbachol are documented. In fasted animals mean acinar cell volume was estimated as 1670 m³ and the cells contained an average of around 450 secretion granules with a corrected mean diameter of 0.70 m. They occupied around 7% of cell volume. After feeding mean cell volume was about 1300 m³ and the cells contained an average of about 190 granules per cell with a mean diameter of 0.58 m. They occupied 3% of cell volume. A shift in the size frequency distribution of granule diameters occurred as a result of feeding. In vitro experiments in which lobules were induced to secrete with carbachol (10M, 3 h, 37° C) had a similar effect. Mean cell volume was reduced from around 1760 m³ to 1360 m³, mean granule number from around 420 per cell to 180 per cell and the volume density of granules was reduced from about 8% to 3% of cell volume. There was no significant change in mean granule diameter or shift in the size-frequency distribution of granule diameters. Incubation of tissues with cycloheximide (1 mM, 3 h, 37° C) did not prevent secretion by carbachol but it prevented replacement of granules. As a consequence, depletion by carbachol was greater in the presence of cycloheximide, the granules being reduced to around 110 per cell and to only 2.5% of cell volume. We conclude that feeding causes a preferential loss of larger granules and that during secretion replacement of granules occurs. Some of these granules are smaller than those evident in the glands of starved animals.     

Cell growth arrest and apoptosis induced by Oct4 or Nanog knockdown in mouse embryonic stem cells: a possible role of Trp53

It has been clear that both Oct4 and Nanog play essential roles in maintaining embryonic stem cells (ESCs) undifferentiation. However, the roles of Oct4 and Nanog in ESCs growth and apoptosis have been much less explored. In this study, we systematically examined the effects of Oct4 or Nanog knockdown on mouse ESCs (mESCs) growth and apoptosis as well as potential mechanisms. Our results show that Oct4 or Nanog knockdown induces growth arrest and apoptosis in mESCs, indicating that the two genes also play important roles in mESCs survival and growth. Moreover, upregulation in Trp53 and its downstream genes expression was detected in Oct4 or Nanog knockdown mESCs, suggesting a possible role of Trp53 in Oct4 or Nanog knockdown induced mESCs growth arrest and apoptosis.