EC:4.6.1.1 - FACTA Search

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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Four-day-old pituitary monolayer cultures were incubated with various hypothalamic releasing hormones. Rat hypothalamic extract stimulated the release of LH, FSH, and PRL by these cultures in a dose-related fashion. Synthetic LH-RH stimulated the release of LH and FSH but not of PRL. Synthetic TRH increased the release of PRL but had no effect on LH or FSH. At 10(-8) M, somatostatin did not affect any of the three adenohypophyseal hormones. Incubation with DBcAMP or theophylline also stimulated PRL release without any detectable effect on LH and FSH release. These data suggest the involvement of cyclic AMP--adenylate cyclase system in the mechanism of PRL release, but their involvement in gonadotropin release requires further studies.
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PMID:Effects of hypothalamic-releasing hormones on LH, FSH, and prolactin in pituitary monolayer cultures. 17 71

Previously, we have shown that preparations of hCG bind to bovine thyroid membranes, as judged from their ability both to inhibit the binding of 125I-labeled bovine TSH (bTSH) and to activate adenylate cyclase (Amir, S.M., H. Uchimura, and S.H. Ingbar, J Clin Endocrinol Metab 45: 280, 1977). In the present studies, 125I-labeled, highly purified bTSH ([125I]bTSH) has been shown to bind specifically and saturably to receptors in a particulate fraction from rat testis. At 37 C, binding was rapid, reaching a maximum level in less than 15 min, but then declining markedly during the next several hours. At 22 C, binding reached a steady state after 2 h and remained unchanged for another 22 h. Binding of [125I]bTSH was greatest at pH 5.5, at which pH more than 50% of [125I]bTSH was bound in the presence of 330 microgram/ml particulate protein, the concentration of protein that yielded maximum binding. Nevertheless, the majority of experiments were conducted at lesser protein concentrations and at physiological pH (7.45), under which conditions total binding was only 25% of that measured at pH 5.5. Scatchard plots indicated the presence of a single binding site with a dissociation constant of 5.8 X 10(-8) M and a binding capacity of 0.22 nmol/mg protein on the basis of data obtained at 22 C and pH 7.45. Both crude and highly purified preparations of hCG inhibited the binding of [125I]bTSH to testis particulate fraction; crude hCG had 46 times the activity, and purified hCG had only one-tenth the activity of bTSH itself in this respect. This was true despite the fact that with respect to the displacement of [125I]hCG, crude and purified hCG were almost equally active. Bovine LH had one-third the activity of bTSH in displacing [125I]bTSH. Human FSH inhibited [125I]bTSH binding only slightly at the highest concentration tested, while glucagon, insulin, PRL, and GH were inactive. Purified bTSH inhibited the binding of [125I]hCG to testis particulate fraction but contained only about 2% of the activity of purified hCG. Lineweaver-Burk analysis suggested that inhibition of [125I]hCG binding by bTSH was competitive in nature. Purified bTSH stimulated cAMP production in Leydig cells, but with only about 0.1% of the activity of purified hCG. It is concluded that bTSH binds reversibly, saturably, and with relatively high affinity to receptors in rat testis that are either the same as receptors for hCG and LH or that interact therewith. bTSH, like hCG, is capable of stimulating the production of cAMP in rat Leydig cells, but is much less potent than hCG in this regard. Preparations of crude hCG contain a factor lacking hCG activity in bioassay, immunoassay, and receptor assay that is especially potent in displacing [125I]bTSH from receptors in testis, as has earlier been described for bTSH receptors in bovine thyroid membranes.
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PMID:Binding of bovine thyrotropin to receptors in rat testis and its interaction with gonadotropins. 21 36

The somatostatin (SS) analog octreotide has been successfully used in the treatment of (neuro)endocrine tumors. The mechanism of action of the tumor (growth) inhibitory action by octreotide is not fully understood. We have investigated the effect of octreotide on 7315b rat pituitary tumor cell growth, PRL release, and intracellular PRL concentrations in vitro. When cultured in medium with 10% fetal calf serum, the number of high affinity SS receptors increased with increasing culture time. On days 7, 14, and 21 of culture, the number of SS receptors amounted to 978 +/- 217, 3588 +/- 705, and 5865 +/- 3332 fmol/mg protein, respectively, whereas they were not measurable on day 0. From days 0-7, 7-14, and 14-21 of culture, octreotide (1 pM to 1 microM) inhibited PRL release and the intracellular PRL concentration, with IC50 values in the nanomolar range. However, no inhibition of cell growth was observed by these octreotide concentrations from day 0-7 of culture, while octreotide inhibited cell growth in a dose-dependent fashion from days 7-14 and 14-21 of culture (maximal inhibition by 25% and 26%, respectively). In a series of nine consecutive experiments we found a significant positive correlation between the percent inhibition of cell growth induced by 1 microM octreotide and the number of SS receptors on 7315b cells (r = 0.7865; P = 0.012). Inhibition of PRL release did not correlate with SS receptor numbers. Octreotide (1 microM) inhibited forskolin (0.5 microM)-stimulated cell growth and intracellular PRL concentrations, while in the presence of a high concentration of forskolin (10 microM), octreotide had no effect on forskolin-stimulated cell growth and intracellular PRL concentrations. In addition, its PRL release inhibitory effect was significantly lower in forskolin-stimulated cultures. Pretreatment of the cells with pertussis toxin (10 micrograms/liter) completely prevented the inhibition of cell growth by octreotide and diminished the inhibitory effect of octreotide on PRL release. Finally, 1 microM octreotide significantly inhibited forskolin-stimulated cAMP production (by 29% and 53% on days 7 and 14 of culture, respectively). We conclude that 1) octreotide inhibits 7315b rat pituitary tumor cell proliferation via a pertussis toxin-sensitive GTP-binding protein- and adenylate cyclase-dependent mechanism; and 2) the number of SS receptors on 7315b pituitary tumor cells may determine whether octreotide exerts a direct antiproliferative effect, whereas its antihormonal effect occurs in the presence of relatively low numbers of SS receptors. This suggests a dissociation of the antiproliferative and antihormonal effects induced by octreotide.
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PMID:Dissociation of antiproliferative and antihormonal effects of the somatostatin analog octreotide on 7315b pituitary tumor cells. 132 74

Pituitary adenylate cyclase-activating polypeptide (PACAP) is a 38-amino acid peptide of the glucagon-secretin-vasoactive intestinal polypeptide superfamily. Although PACAP is a potent stimulator of adenylate cyclase activity in the adenohypophysis, the precise target cells for PACAP in the anterior pituitary remain unknown. The aim of the present study was to investigate whether PACAP could stimulate calcium mobilization in individual cells of the pituitary and to determine the type of cells that responded to PACAP. Enzymatically dispersed frog distal pituitary cells were plated on photoetched coverslips and cultured for 3-7 days. The cells were loaded with the fluorescent calcium indicator indo-1, and changes in intracellular calcium concentrations ([Ca2+]i) were monitored using dual wavelength microfluorimetry. The individual cells were localized with the aid of the alpha/numeric grid of the coverslips and identified retrospectively by immunofluorescence. Approximately 45% of GH and PRL cells and 25% of ACTH and TSH cells responded to PACAP (10(-5) M) ejection by an elevation of [Ca2+]i. Only 16% of gonadotropes were stimulated by PACAP. The time course of [Ca2+]i variations showed three different patterns: transient spikes, sustained stimulations, and oscillatory responses. In addition, heterogenous responses were observed within each cell type. These data provide evidence for the involvement of calcium mobilization in the mechanism of action of PACAP on pituitary cells. The results also indicate that in frogs, PACAP may stimulate the secretory activity of GH and PRL cells and, to a lesser extent, ACTH, TSH, and gonadotrope cells.
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PMID:Pituitary adenylate cyclase-activating polypeptide stimulates calcium mobilization in amphibian pituitary cells. 132 48

The in vivo and in vitro inhibitory effects of a somatostatin (SRIH) analog, octreotide, upon TSH, alpha-subunit, GH, and PRL have been studied, as well as SRIH receptors and their coupling to adenylate cyclase, in nine TSH-secreting pituitary adenomas. From in vivo and cell culture studies, the TSH- and alpha-subunit-secreting adenomas appeared heterogeneous, with four out of the nine tumors cosecreting GH and/or PRL. A single sc injection of octreotide (100 micrograms) lowered plasma concentration of TSH by 40 +/- 5% (mean +/- SE of 5), of alpha-subunit by 27 +/- 9% (n = 5), of GH by 60 +/- 5% (n = 4), and of PRL by 27 +/- 9% (n = 4). In cells cultures, octreotide (10(-8) mol/L) inhibited equally TSH, alpha-subunit, and GH release. 125I-Tyr0-DTrp8-SRIH binding sites were measurable in the nine TSH-secreting adenomas either on membrane preparations (n = 6; Bmax: 152 +/- 73 fmol/mg protein) or on frozen sections by radioautography (n = 3). Their density was variable among TSH adenomas and was lower than that measured in GH-secreting adenomas but higher than in nonfunctioning tumors. Two out of three TSH-secreting adenoma displayed an heterogeneous distribution of 125I-Tyr0-DTrp8-SRIH binding sites. 125I-Tyr0-DTrp8-SRIH specific binding was inhibited by guanosine triphosphate (GTP: 10(-4) mol/L). SRIH inhibited adenylate cyclase in 5/5 TSH-secreting adenomas and a good correlation (r = 0.92, P less than 0.02) was found between 125I-Tyr0-DTrp8-SRIH binding capacity (Bmax) and maximal adenylate cyclase inhibition by SRIH. These results demonstrate in vivo and in vitro inhibition of TSH, alpha-subunit, PRL, and GH secretion by octreotide in TSH-secreting pituitary adenomas. Functional SRIH receptors are present on these tumors and the effect of SRIH on hormonal secretion could be mediated, at least in part, by inhibition of adenylate cyclase. These findings support the medical treatment of this rare type of tumors by SRIH analogs.
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PMID:Somatostatin receptors on thyrotropin-secreting pituitary adenomas: comparison with the inhibitory effects of octreotide upon in vivo and in vitro hormonal secretions. 135 5

The sulfonylurea glibenclamide, which is known to block ATP-sensitive potassium channels, increases, in a dose-dependent manner, the release of PRL from MMQ pituitary cells. Glibenclamide does not reduce the dopaminergic inhibition of forskolin-stimulated PRL secretion; conversely it almost completely abolishes the inhibitory effect of somatostatin (SRIF) on this parameter. The sulfonylurea dose dependently increases basal [Ca++]i, without affecting the increase in [Ca++]i induced by high concentrations of extracellular potassium. Glibenclamide does not modify dopamine-induced [Ca++]i reduction, whereas it abolishes the inhibitory effect of SRIF on basal [Ca++]i. In the presence of diazoxide, an opener of ATP-sensitive potassium channels, which lowers basal [Ca++]i, dopamine still reduces [Ca++]i whereas SRIF does not induce a further decrease. Glibenclamide induces the depolarization of the cell membrane and prevents the SRIF-evoked hyperpolarization. The hyperpolarization of the cell membrane induced by dopamine is not modified by glibenclamide. Diazoxide induces a cell membrane hyperpolarization that is enhanced by dopamine but not by SRIF. Finally, glibenclamide does not affect basal and stimulated adenylate cyclase activity. In conclusion, our findings show that, in MMQ cells, glibenclamide stimulates PRL release, suggesting an involvement of ATP-sensitive potassium channels in the regulation of PRL secretion. The reversal by glibenclamide of the effects of SRIF on calcium homeostasis, membrane potential, and PRL release suggests that this type of potassium channel participates to the somatostatinergic inhibition of PRL secretion. Conversely, we found that glibenclamide does not modify the dopaminergic inhibition of PRL secretion and second messenger systems, suggesting that ATP-sensitive potassium channels may not be involved in the inhibitory effect of dopamine on PRL release.
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PMID:Dopamine and somatostatin inhibition of prolactin secretion from MMQ pituitary cells: role of adenosine triphosphate-sensitive potassium channels. 135 54

When applied to rat anterior pituitary cells, angiotensin-II (AII) exerted two opposite effects on adenylate cyclase (AC) activity: a pertussis toxin (PTX)-sensitive inhibition of the enzyme with a maximal effect of -42 +/- 2% in crude cell membrane preparations, and, in contrast, a non-PTX-sensitive stimulation of cAMP production (maximal effect = 38 +/- 3%) in intact cells. The apparent affinity of both effects was equal to 1.8 nM. The stimulation of cAMP formation parallels the stimulation of PRL release. Under the same conditions, dopamine (DA) inhibited both membrane AC activity and cAMP formation in intact cells by a PTX-sensitive mechanism. After separation of pituitary cell types by sedimentation at unit gravity, the effects of AII and DA on intracellular cAMP and membrane AC activity coincided in the same fractions (those enriched in PRL cells). The stimulatory effect of AII on cAMP formation was about 5 times weaker than that of peptides positively coupled to AC as vasoactive intestinal peptide in total as well as in PRL-enriched cells. Since the AII receptor is also coupled to phospholipase-C (PLC) in a non-PTX-sensitive manner, we investigated whether protein kinase-C (PKC) could indirectly account for the positive effect of AII on cAMP formation. 12-O-Tetradecanolylphorbol 13-acetate (TPA), a stimulator of PKC was indeed able to increase intracellular cAMP; this effect was not additive with that of AII. conversely, application of the PKC inhibitors H7 [1-(5-isoquinolylsulfonyl)2-methyl-piperazine] and staurosporine or desensitization of PKC by long exposure of the cells to TPA abolished the cAMP response to TPA as well as that to AII. In addition, thyreoliberin, another activator of the PLC pathway, was able to stimulate cAMP formation in a PKC-dependent manner. DA inhibition of intracellular cAMP was not affected by any PKC inhibition. We conclude that in lactotroph cells, 1) the AII inhibitory coupling to AC observed in membrane preparations does not exist in intact cells, at least under basal conditions; and 2) the AII intracellular cAMP stimulation observed is not accounted for by a direct coupling with AC; it is due to a cross-talk of the PLC pathway mediated by PKC, an effect that might be shared by other PLC-stimulating mediators and may participate in the regulation of PRL release.
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PMID:Involvement of protein kinase-C in the effect of angiotensin-II on adenosine 3',5'-monophosphate production in lactotroph cells. 165 95

To assess the role of cAMP-mediated signal transduction processes in mediation of secretagogue-stimulated GH release, we examined the dose-related effects of the diterpene adenylate cyclase activator forskolin (FSK) in primary monolayer cultures of rat adenohypophyseal cells. In cell cultures prepared from both immature (12 days old) and adult (6 weeks to 4 months old) male or female rats, the dose-related stimulation of GH release by FSK was biphasic. With increasing FSK concentrations from 0.03-3.16 microM, GH release increased progressively to maximal values of 442 +/- 19% and 303 +/- 10% of basal release in cells from immature and adult rats, respectively. FSK concentrations above 3.16 microM induced progressively diminished GH responses, with net inhibition to below basal release evident at 100 microM FSK. FSK stimulated PRL release to a lesser degree than it did GH release; the PRL response to FSK was also biphasic. When maximal stimulatory concentrations (Emax) of FSK and GH-releasing factor (GRF; 10 nM) were added in combination, the GH response was significantly less than the individual response to either secretagogue alone. In response to FSK alone, GRF alone, and FSK plus GRF, GH release was 478 +/- 7%, 583 +/- 11%, and 244 +/- 5%; 278 +/- 4%, 283 +/- 3%, and 175 +/- 2%; and 299 +/- 12%, 351 +/- 5%, and 191 +/- 17% of basal release in cells from 12-day-old, adult male, and adult female rats, respectively (P less than 0.01 for all responses to combined addition vs. the individual responses). Submaximal stimulatory concentrations of GRF added in combination with submaximal FSK elicited partially additive GH responses; the GH response to Emax GRF, on the other hand, was inhibited in a dose-related manner by all concentrations of FSK that by themselves were stimulatory. The GH responses were also suppressed when Emax FSK was added to cultured cells of 12-day-old rats in combination with Emax cholera toxin (2.5 ng/ml) or prostaglandin E2 (10 microM), agents whose actions, like that of GRF, involve adenylate cyclase activation. In contrast, FSK did not suppress but in most cases augmented the maximal GH responses to secretagogues whose action is independent of adenylate cyclase activation: (Bu)2cAMP (0.5 mM), TRH (100 nM), phorbol myristate acetate (50 nM), the Ca2+ ionophore A23187 (250 microM), and the dihydropyridine Ca2+ channel agonist BAY K8644 (10 microM). Indeed, combined addition of FSK with the latter two agents resulted in synergistic stimulation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biphasic action of forskolin on growth hormone and prolactin secretion by rat anterior pituitary cells in vitro. 169 47

Human decidual tissue synthesizes and secretes a protein that is identical to pituitary prolactin in its chemical, biological and immunological properties. Nevertheless, the factors that regulate the synthesis and release of prolactin from the decidual tissues appear to be different to those regulating the synthesis and release of pituitary prolactin. Studies from our laboratory over the past few years indicate that the synthesis and release of decidual prolactin are regulated, at least in part, by factors released by placenta, fetal membranes and decidua. The placenta releases a 23.5 KMr protein [decidual prolactin-releasing factor (PRL-RF)] that stimulates a rapid release of prolactin within the first few minutes of exposure and a sustained, prolonged, increase in the synthesis and release of prolactin beginning 6-8 h after exposure. The acute release of prolactin in response to PRL-RF is inhibited by decidual prolactin release-inhibitory factor (PRL-IF), a 35-45 K Mr protein that is released by the decidua. The secondary increase in the synthesis and release of prolactin in response to PRF-RF is blocked by lipocortin I, which is synthesized by both the placenta and decidua. IGF-I, insulin and relaxin also stimulate the synthesis and release of prolactin. However, the stimulation in response to these factors does not occur until 24-48 h after exposure. The cellular mechanisms involved in the release of decidual prolactin are as yet unknown. However, recent studies implicate activation of adenylate cyclase, phospholipase C-mediated phosphoinositide hydrolysis and phospholipase A2-mediated arachidonic acid release in the regulation of prolactin release. The finding that the synthesis and release of decidual prolactin are regulated, at least in part, by PRL-RF, IGF-I, insulin, relaxin and lipocortin I strongly suggests that there is novel feedback regulation between the placenta, fetal membranes, and decidua in the regulation of the synthesis and release of decidual prolactin.
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PMID:Regulation of the synthesis and release of decidual prolactin by placental and autocrine/paracrine factors. 183 Dec 61

A somatomammotropic cell line (P0) derived from adult rat pituitaries has been maintained in culture for 2 yr. Secretion of GH and PRL by this cell line has been studied in response to hypophysiotropic peptides known to affect the release of both hormones as well as agents that affect second messenger systems in an attempt to characterize the stimulus-secretion mechanisms used by these cells. GH and PRL release during short term (4 h) incubations of P0 cells and primary cultures of dispersed rat pituitary cells was initially measured in response to GRF, TRH, vasoactive intestinal peptide (VIP), and SRIF. In P0 cells, the minimal effective dose of each of the hypophysiotropic peptides was comparable with respect to GH and PRL secretion. The effects of TRH and VIP were similar to those in freshly dispersed cells with respect to PRL release, whereas those of GRF and SRIF were less potent with respect to GH release. The stimulation of GH and PRL release in P0 cells by adenylate cyclase-related agents ((Bu)2 cAMP and forskolin) was comparable to that for GH secretion in mature somatotrophs but much greater than that of PRL release in mature lactotrophs. Stimulation of GH and PRL release in P0 cells by protein kinase C-related agents (diacylglycerol and phorbol ester) was also similar to that observed for GH release from mature pituitary cells, whereas minimal or undetectable effects were observed on PRL release from mature cells. The results indicate that the P0 somatomammotropic cell line possesses receptors, second messenger systems, and secretory characteristics of both somatotrophs and lactotrophs, although where differences exist, there is more resemblance to somatotrophs. They also demonstrate that the responses to each of the agents studied are bihormonal and appear to be regulated by a common mechanism.
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PMID:Growth hormone and prolactin secretion in cultured somatomammotroph cells. 197 45

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