Inositol 1,4,5-trisphosphate and ryanodine receptors mobilize calcium from a common functional pool in human U373 MG cells

This investigation concentrates on the change in Ca(2+) concentration ([Ca(2+)]) caused by ryanodine in U373 MG cells. This cell type from a human astrocytoma is a unique cellular model because it only expresses the type 3 ryanodine receptor (RyR3), which is generally the least abundant isoform. In the presence of physiological [Ca(2+)] in the extracellular medium, U373 MG cells are caffeine-insensitive, even after forskolin treatment, and ryanodine-sensitive only when an unusually high concentration (30 microM) is applied. Xestospongin C behaves like thapsigargin and therefore cannot be used as a selective antagonist of inositol 1,4,5-trisphosphate receptors (InsP(3)Rs). After ryanodine challenge, addition of an analog of Substance P (SP), which should deplete InsP(3)-sensitive stores, has no effect on [Ca(2+)](i). After thapsigargin treatment, which unmasks the calcium leak from intracellular stores, neither ryanodine nor SP change [Ca(2+)](i), suggesting that thapsigargin completely depletes the ryanodine-sensitive and the InsP(3)-sensitive stores of U373 MG cells. Finally, in experiments monitoring the [Ca(2+)] in intracellular stores, InsP(3) stimulation of permeabilized cells causes a decrease in [Ca(2+)] that is not affected by subsequent ryanodine treatment. Our results support the conclusion that U373 MG cells express both InsP(3)Rs and RyRs that can individually or in combination mobilize only one functional Ca(2+) pool.     

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.     

Use of a fluorescent dye to measure secretion from intact bovine anterior pituitary cells

The fluorescent dye FM1-43 has been used to indicate membrane changes in individual bovine anterior pituitary cells exposed to secretory stimuli. After ten minutes incubation with FM1-43 (2 M), cells showed three patterns of dye fluorescence: annular, partly filled and uniformly filled. FM1-43 fluorescence was increased in 61% of the cells by TRH (40 nM), a physiological stimulus for prolactin secretion, and in 89% of the cells by 60 mM external K⁺. The fluorescence also increased when cells incubated in the presence of quinpirole, a dopamine D2-receptor agonist which inhibits prolactin secretion, were exposed to raclopride, a D-2 antagonist. The increases in FM1-43 fluorescence caused by these treatments suggests that the dye acts as an indicator of secretion, possibly through incorporation into secretory vesicle membranes exposed on the cell surface during exocytosis. If the dye was washed away after loading, the fluorescence of partly and uniformly filled cells was retained and a rise in fluorescence could still be seen on stimulation by TRH. This suggests that some dye had been taken up by endocytosis and trapped in an intracellular compartment, which expanded through membrane recapture after TRH stimulation. FM1-43 could therefore be a useful probe for membrane cycling associated with secretory responses.     

The effect of acetylcholine on inositol lipid metabolism and intracellular calcium concentrations in bovine anterior pituitary cells

Acetylcholine (ACh) increased the intracellular calcium concentration in bovine anterior pituitary cells. In the presence of the calcium channel antagonists verapamil (20 microM) or nitrendepine (1 microM) the increase in calcium was partially inhibited but showed both transient and sustained components. In the presence of EGTA (2.5 mM) only the transient component was observed. ACh also decreased inositol radioactivity in phosphatidylinositides and increased it in inositol phosphates. It is concluded that the increase in calcium caused by acetylcholine requires both the entry of external calcium and mobilisation of internal calcium. Replacement of external sodium by N-methyl-D-glucamine inhibited the rises in calcium and inositol phosphate labelling in response to ACh. Tetrodotoxin (3 microM) or ouabain (50 microM) did not affect either response to ACh. Verapamil did not affect the calcium rise induced by ACh in the absence of external sodium. The phorbol ester PMA (10 nM) caused a transient rise in calcium and inhibited the calcium rise caused by acetylcholine: it did not modify the effect of acetylcholine on inositol phosphates. The dependence of the stimulation of external calcium entry and inositol phosphate production on external sodium ions and protein kinase C is discussed.     

Gastrointestinal calcium absorption in sheep is mostly insensitive to an alimentary induced challenge of calcium homeostasis

For ruminants, marked differences to monogastric species have been described concerning the localisation and vitamin D sensitivity of gastrointestinal calcium absorption, particularly with respect to the forestomach compartment. Therefore, we investigated gastrointestinal calcium transport of sheep as influenced by a dietary calcium restriction and/or a supraphysiological dosage of exogenous calcitriol. Using the Ussing chamber technique, we determined calcium and mannitol flux rates to differentiate between para- and transcellular calcium transport in rumen, duodenum, jejunum and colon. Expression of epithelial calcium channels, calbindin-D(9K), and basolateral extrusion mechanisms was determined by quantitative RT-PCR and Western blot analysis. Active calcium transport could be demonstrated in jejunum and rumen. A significant stimulation of jejunal calcium absorption was only observed in animals treated with calcitriol. The alimentary calcium restriction alone did not result in significant effects indicating a less effective intestinal adaptation to alimentary calcium restriction than observed in monogastric animals. The observed ruminal calcium transport was not affected at all, neither by the diet nor the calcitriol treatment. Furthermore, no significant expression of epithelial calcium channels or calbindin-D(9K) could be detected in the rumen; therefore it is concluded that calcium transport in the forestomachs is probably mediated by a different, so far unknown mechanism.     

Monolayer cultures of dispersed cells from bovine anterior pituitary: responses to synthetic hypophysiotropic peptides.

Cells were dispersed from bovine anterior pituitary glands, by digestion with collagenase, and cultured. After 4 days the cell monolayers were incubated with fresh medium containing synthetic hypophysiotropic peptides for 2, 6, or 20 h, and hormone released into the medium was estimated by radioimmunoassay. After 2 h, thyroid releasing hormone (TRH) stimulated the release of thyroid-stimulating hormone (TSH) up to eightfold, and of prolactin (PRL) and follicle-stimulating hormone (FSH) about twofold at a minimal effective concentration of 1 ng/ml; enhanced growth hormone (GH) release was not apparent until 20 h, and release of luteinizing hormone (LH) and adrenocorticotrophic hormone (ACTH) was unaffected. Luteinizing hormone releasing hormone (LH-RH) enhanced release of LH maximally (three- to fourfold) during a 2 h incubation and was effective at 0.1 ng/ml; FSH release was significantly enhanced by about 50% above control level. Growth hormone release inhibiting hormone (GH-RIH)(somatostatin) showed significant effects only in the 20 h incubation; GH release was inhibited by 50% and release of PRL was slightly, but significantly, enhanced. Pituitary cell monolayers apparently permit maximal expression of releasing activities inherent in the hypothalamic hormones.     

Effects of VIP, TRH, GABA and dopamine on prolactin release from superfused rat anterior pituitary cells

Effects of VIP, TRH, dopamine and GABA on the secretion of prolactin (PRL) from rat pituitary cells were studied in vitro with a sensitive superfusion method. Dispersed anterior pituitary cells were placed on a Sephadex G-25 column and continuously eluted with KRBG buffer. Infusion of TRH (10(-11) - 10(-8)M) and VIP (10(-9) - 10(-6)M) resulted in a dose-related increase in PRL release. LHRH (10(-8) - 10(-5)M) had no effect on PRL release. On the other hand, infusion of dopamine (10(-9) - 10(-6)M) and GABA (10(-8) - 10(-4)M) suppressed not only the basal PRL release from dispersed pituitary cells but also the PRL response to TRH and VIP. The potency of TRH to stimulate PRL release is greater than that of VIP, and the potency of dopamine to inhibit PRL secretion is stronger than that of GABA on a molar basis. These results indicate that TRH and VIP have a stimulating role whereas dopamine and GABA have an inhibitory role in the regulation of PRL secretion at the pituitary level in the rat.     

Use of a trapped fluorescent indicator to demonstrate effects of thyroliberin and dopamine on cytoplasmic calcium concentrations in bovine anterior pituitary cells

The fluorescent calcium indicator 'quin2' was used to demonstrate changes in cytoplasmic calcium concentrations in bovine anterior pituitary cells. The basal calcium concentration was 0.21 +/- 0.02 microM (mean of 4 cell preparations). Thyroliberin (TRH) (10(-10) - 10(-6) M) rapidly and at the higher concentrations transiently increased the concentration. Dopamine (10(-10) - 10(-7) M) decreased the concentration transiently and more slowly. At 10(-5) M, dopamine prevented the increase in calcium concentration caused by 10(-9) M TRH, and partially inhibited the increase caused by higher concentrations of the peptide. The data support the hypothesis that calcium is the second messenger for TRH, and suggest that dopamine inhibits TRH-induced prolactin secretion by preventing the calcium concentration from exceeding the level necessary to increase secretion.     

Serum rapidly mobilizes calcium from an intracellular pool in quiescent fibroblastic cells

Addition of dialysed fetal bovine serum to quiescent cultures of Swiss 3T3 cells loaded with 45Ca2+ causes a very rapid increase in the rate of 45Ca2+ efflux from an intracellular pool. Exposure to serum for 2 min leads to a fall of 0.59 nmol Ca2+/mg protein in the intracellular Ca2+ content of the cells. Inhibitors of mitochondrial function prevent the stimulation of 45Ca2+ efflux by serum. The stimulation of 45Ca2+ efflux by serum is also observed in quiescent cultures of Rat-1, Swiss 3T6 and BHK cells and in secondary cultures of whole mouse embryo fibroblasts.     

Direct kisspeptin-10 stimulation on luteinizing hormone secretion from bovine and porcine anterior pituitary cells

Kisspeptins are peptide hormones encoded by the KiSS-1 gene and act as the principal positive regulator of the reproductive axis by directly stimulating gonadotropin-releasing hormone (GnRH) neuron activity. However, peripheral administration, as well as central administration, of kisspeptin stimulates luteinizing hormone (LH) secretion in some mammalian species. In order to evaluate the direct effects of kisspeptin-10 (the minimal kisspeptin sequence necessary for receptor activation) on LH secretion from bovine and porcine anterior pituitary (AP) cells, LH-releasing effects of kisspeptin-10 on AP cells were compared with GnRH in vitro. The AP cells were prepared from 1-month-old intact male calves, 8-month-old castrated male calves, or 6-month-old barrows, and then the cells were incubated for 2h with the peptides. The 1000 nM and 10,000 nM, but not lower concentrations, of kisspeptin-10 significantly stimulated LH secretion from the bovine AP cells (P<0.05). The 100 nM and 1000 nM, but not lower concentrations, of kisspeptin-10 significantly stimulated LH secretion from porcine AP cells (P<0.05). As 10nM of GnRH strongly stimulated LH secretion from all AP cells tested in this study, the present results suggest that kisspeptin-10 has a direct, but weak, stimulating effect on LH secretion in bovine and porcine AP cells. The present study is the first to examine the direct actions of kisspeptin on the bovine and porcine pituitary gland as far as we know. Kisspeptin might have other actions on the pituitary because the pituitary has multiple roles.     

Perifusion model system to culture bovine hypothalamic slices in series with dispersed anterior pituitary cells

Summary Dispersed bovine anterior pituitary cells were incubated either in static or perifusion cultures to assess basal growth hormone release as well as stimulatory and inhibitory effects of growth hormone-releasing hormone and somatostatin, respectively, on growth hormone release. Total concentrations of growth hormones over a 12-hour incubation period were fivefold greater in perifused than in static cultures (2034 ± 160 vs. 387 ± 33 ng/12 h). A dose-dependent increase in growth hormone secretion in response to challenge with growth hormone-releasing hormone (10⁻¹² to 10⁻⁸ M) for 1 h was observed in both static and perifusion cultures; however, perifused cells were more responsive to the same concentration of neuropeptide than those in static culture. Concentrations of somatostatin (10⁻¹² to 10⁻⁸ M) for 1 h did not inhibit basal growth hormone secretion in either static or perifusion cultures. To establish model, slices of the hypothalamus, immediately adjacent to the sagittal midline, were perifused in series with anterior pituitary cells, and media effluent was assayed for growth hormone concentrations. Release of growth hormone was pulsatile and seemed to mimic the episodic pattern of bovine secretion. Hypothalamic slices were placed in one chamber of the perifusion system, and basal secretion of growth hormone-releasing hormone and somatostatin was pulsatile in media effluent. Tissue viability of hypothalamic slices and anterior pituitary cells was evaluated by KCl depolarization. Tissues were viable for at least 120 h. Thus, this hypothalamo-pituitary dual chamber perifusion system is a valid in vitro model to study regulation of growth hormone secretion.     

Cytochemical studies on the localization and functional properties of calcium in anterior pituitary cells

Summary The localization of calcium and its functional properties in anterior pituitary cells were studied using a potassium pyroantimonate technique. In all kinds of secretory cells, the precipitates of the calcium-pyroantimonate complex were distributed on the limiting membrane of the secretory granule. They were present also in the cytoplasmic matrix, the mitochondrial matrix, small smooth vesicles, coated vesicles, and in the nuclear euchromatin area. The precipitates were usually seen at the contact region between the limiting membranes of two adjacent secretory granules, or between the granule limiting membrane and the plasma membrane. When the tissues were incubated in the medium containing A23187 (10 M) for 5 min, the deposits on the granule limiting membrane were increased in number and those on the mitochondrial matrix were decreased; the reaction products almost disappeared on the limiting membranes of the secretory granules after membrane fusion following single or multigranular exocytosis induced by A23187-treatment. In addition, small vesicles in the capillary endothelium contained reaction precipitates. Based on these results we propose a hypothetical model for the relationship between the localization of calcium and secretory activity.This study was supported by grants from the Japan Ministry of Education     

The binding of calcium and yttrium ions to a glycoprotein from bovine cortical bone

The binding of Ca²⁺ and Y³⁺ to an acidic glycoprotein from bovine cortical bone, bone sialoprotein, was determined from the titration curves at I 0·2 in the presence and absence of the cations. The binding of Y³⁺ was greater than that of Ca²⁺. The value for the association constant, k, for the interaction with Y³⁺ increased with pH, from log k 2·93 at pH3·4 to log k 3·50 at pH4·4, and the number of binding sites/mol. increased from 4·6 at pH3·4 to 9·1 at pH4·4. It is proposed that the binding site consists of three carboxyl groups, but it is likely that the binding is a strong electrostatic interaction rather than a co-ordination linkage. A chondroitin sulphate–protein complex also extracted from bovine cortical bone interacted with Y³⁺ and Ca²⁺ to a similar extent as did bone sialoprotein. It is suggested that these materials are present in bone at the resting and resorbing surfaces and that they contribute to the deposition of yttrium, americium and plutonium at these sites.     

Kisspeptin-10 stimulates the secretion of growth hormone and prolactin directly from cultured bovine anterior pituitary cells

Kisspeptins are peptide hormones encoded by the KiSS-1 gene, and act as the principal positive regulator of the reproductive axis by directly stimulating gonadotropin-releasing hormone (GnRH) neuron activity. We recently observed that kisspeptin-10 (the minimal kisspeptin sequence necessary for receptor activation) also has a direct stimulating effect on luteinizing hormone (LH) secretion in bovine anterior pituitary (AP) cells. In the present study, we evaluated the direct effect of kisspeptin-10 on the secretion of other pituitary hormones, growth hormone (GH) and prolactin (PRL), from bovine AP cells. The AP cells, which were prepared from 1- or 8-month-old male calves, were incubated for 2h with the peptides. Kisspeptin-10 at 100 nM (P<0.05), 1000 nM (P<0.01) and 10,000 nM (P<0.01), but not at 10 nM, significantly stimulated GH secretion from the AP cells of 1-month-old calves, while in 8-month-old calves it was significantly (P<0.05) stimulated at 1000 nM (P<0.01) and 10,000 nM (P<0.01), but not at 10nM and 100 nM. The response of GH to 100 nM (P<0.01), 1000 nM (P<0.05) and 10,000 nM (P<0.01) kisspeptin-10 in the AP cells of 1-month-old calves was significantly greater than in those of 8-month-old calves. All tested doses of kisspeptin-10 had no effect on PRL secretion from AP cells of 1-month-old calves. However, 1000 nM (P<0.05) and 10,000 nM (P<0.01), but not lower concentrations, of kisspeptin-10 significantly stimulated PRL secretion from the AP cells of 8-month-old calves. The present study is, as far as we know, the first to examine the direct actions of kisspeptin on the secretion of GH and PRL from the bovine pituitary gland. Further studies are necessary to evaluate the importance of multiple actions of kisspeptin on the pituitary of various animals in vivo.     

Cytochemical studies on the localization and functional properties of calcium in anterior pituitary cells

The localization of calcium and its functional properties in anterior pituitary cells were studied using a potassium pyroantimonate technique. In all kinds of secretory cells, the precipitates of the calcium-pyroantimonate complex were distributed on the limiting membrane of the secretory granule. They were present also in the cytoplasmic matrix, the mitochondrial matrix, small smooth vesicles, coated vesicles, and in the nuclear euchromatin area. The precipitates were usually seen at the contact region between the limiting membranes of two adjacent secretory granules, or between the granule limiting membrane and the plasma membrane. When the tissues were incubated in the medium containing A23187 (10 microM) for 5 min, the deposits on the granule limiting membrane were increased in number and those on the mitochondrial matrix were decreased; the reaction products almost disappeared on the limiting membranes of the secretory granules after membrane fusion following single or multigranular exocytosis induced by A23187-treatment. In addition, small vesicles in the capillary endothelium contained reaction precipitates. Based on these results we propose a hypothetical model for the relationship between the localization of calcium and secretory activity.     

The mechanisms by which vasoactive intestinal peptide (VIP) and thyrotropin releasing hormone (TRH) stimulate prolactin release from pituitary cells

The effect of vasoactive intestinal peptide (VIP) on prolactin (PRL) secretion from pituitary cells is reviewed and compared to the effect of thyrotropin releasing hormone (TRH). These two peptides induced different secretion profiles from parafused lactotrophs in culture. TRH was found to increase PRL secretion within 4 s and induced a biphasic secretion pattern, while VIP induced a monophasic secretion pattern after a lag time of 45–60 s.The secretion profiles are compared to changes in adenylate cyclase activity, production of inositol polyphosphates, changes in intracellular calcium concentrations and changes in electrophysiological properties of the cell membrane.Abbreviations AC adenylate cyclase - DG diacyglycerol - GH growth hormone - GTP guanosine trisphosphate - G_i GTP binding proteins that mediate inhibition of adenylate cyclase and that are pertussis toxin sensitive - G_s GTP binding protein that mediates stimulation of adenylate cyclase - GH cells clonal rat pituitary tumor cells producing PRL and/or growth hormone - GH₃ GH₄C₁ and GH₄B6 subclones of GH cells - PKA protein kinase A - PKC protein kinase C - PLC phospholipase C - PRL prolactin - TPA 12-O-tetradecanoyl phorbol 13-acetate - TRH thyrotropin releasing hormone - VIP vasoactive intestinal peptide     

Alpha-transforming growth factor secreted by untransformed bovine anterior pituitary cells in culture. I. Purification from conditioned medium

A 6-kDa alpha-transforming growth factor (TGF) was purified 100,000-fold to homogeneity from the culture fluid conditioned by normal bovine anterior pituitary-derived cells. Initial purification of the acid-soluble TGF from concentrated conditioned medium was achieved by Bio-Gel P-60 gel filtration (apparent molecular mass of 9 kDa). After the Bio-Gel step, three different steps of reverse-phase fast-protein liquid chromatography on the same Pharmacia C18 column, using linear acetonitrile gradients, gave complete purification. The ion-pairing agents used in the three consecutive steps were: 0.1% trifluoroacetic acid, 0.13% heptafluorobutyric acid, and again, 0.1% trifluoroacetic acid at a shallower gradient. Homogeneity was confirmed by reverse-phase high performance liquid chromatography, and by polyacrylamide gel electrophoresis, where TGF visualization was facilitated by autoradiography of 125I-TGF. The 125I-TGF bound to epidermal growth factor (EGF) receptors and after elution ran identically to the starting material. The molecular mass of TGF is 6 kDa by polyacrylamide gel electrophoresis and 6.6 kDa by amino acid analysis. The amino acid composition of bovine TGF is similar to that of rat or human alpha TGF and distinct from epidermal growth factor. Colony-stimulating activity was lost after purification, but the TGF retained its ability to stimulate thymidine uptake by quiescent cells. This mitogenic activity could be blocked completely by anti-EGF-receptor monoclonal antibodies, indicating that the activity was mediated through the EGF-receptor.     

Stimulatory effect of thyrotrophin-releasing hormone (TRH) on the release of luteinizing hormone (LH) from rat anterior pituitary cells in vitro

The effect of thyrotrophin-releasing hormone (TRH, 10(-7) M) on luteinizing hormone (LH) release from rat anterior pituitary cells was examined using organ and primary cell culture. The addition of TRH to the culture medium resulted in a slightly enhanced release of LH from the cultured pituitary tissues. However, the amount of LH release stimulated by TRH was not greater than that produced by luteinizing hormone-releasing hormone (LH-RH, 10(-7) M). Actinomycin D (2 X 10(-5) M) and cycloheximide (10(-4) M) had an inhibitory effect on the action of TRH on LH release. The inability of TRH to elicit gonadotrophin release from the anterior pituitary glands in vivo may partly be due to physiological inhibition of its action by other hypothalamic factor(s).