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)

The interaction of growth hormone-releasing factor (GRF) and somatostatin (SRIF) on adenylate cyclase activity and growth hormone release was investigated in pituitary homogenates and 2-day cultured rat anterior pituitary cells. GRF stimulated growth hormone release by about 3-fold (ED50 1.6 X 10(-12) M) and caused a rapid 15-fold increase in cyclic AMP production (ED50 6.0 X 10(-12) M). The increase in cyclic AMP was due to direct stimulation of adenylate cyclase by GRF, which caused a 4-fold increase in the activity of the enzyme measured in anterior pituitary homogenates. GRF-induced cyclic AMP formation and GRF-stimulated adenylate cyclase activity were maximally inhibited to the extent of about 50% by 10(-8) M somatostatin. In contrast, GRF-stimulated growth hormone release was completely inhibited by somatostatin (ID50 3.2 X 10(-11) M), suggesting a second site of action of somatostatin. These studies demonstrate that GRF stimulates growth hormone release via activation of adenylate cyclase and a rise in intracellular cyclic AMP. In addition, these findings indicate that the inhibitory action of somatostatin on growth hormone release is exerted at two levels, one at the level of adenylate cyclase affecting the production of cyclic AMP, and the other beyond the formation of the nucleotide, at a site which modulates the release of growth hormone from the cell.
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PMID:Actions of growth hormone-releasing factor and somatostatin on adenylate cyclase and growth hormone release in rat anterior pituitary. 614 68

The stimulation of GH secretion from the anterior pituitary by synthetic GRF (hpGRF) is associated with a rapid increase in cAMP production. Within 5 min of the addition of 1 nM hpGRF to cultured rat anterior pituitary cells, intracellular cAMP levels are elevated 6-fold, with a maximal response being observed at 30 min. cAMP accumulation in the extracellular medium is also enhanced by this peptide. Comparison of the two cellular responses (GH secretion and cAMP formation) at various concentrations of hpGRF indicates that 10 times more hpGRF is required to obtain half-maximal stimulation of cAMP production than for GH secretion. Somatostatin totally blocks hpGRF-stimulated GH release, but only partially attenuates cAMP production in the presence or absence of a phosphodiesterase inhibitor. Verapamil also inhibits GH release in response to hpGRF, but, unlike somatostatin, this effect is not associated with an attenuation of cAMP production. In fact, intracellular cAMP levels are slightly augmented in the presence of verapamil, indicating that Ca2+ is required for hormone release but not for the activation of adenylate cyclase. Consistent with this is the observation that the release of GH due to 8-bromo-cAMP is also blocked by verapamil. A requirement for Ca2+ is further indicated by the inhibitory effects of CoCl2 and CdCl2 on both basal and hpGRF-stimulated GH release. These results suggest that cAMP may play a role as an intracellular mediator of GRF action in somatotrophs and that Ca2+ is required for the release process. Somatostatin may exert its inhibitory effects on GH secretion either by interfering with cAMP production or by an action on the secretory process subsequent to cAMP production.
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PMID:Stimulation of adenosine 3',5'-monophosphate production by growth hormone-releasing factor and its inhibition by somatostatin in anterior pituitary cells in vitro. 619 79

GRF (10(-8) - 10(-5) M) is shown to inhibit competitively the binding of [125I]VIP to human and rat intestinal epithelial membranes. The affinity of GRF for VIP receptor is 700-800-times lower than that of VIP in both species. The order of affinity of different peptides is VIP greater than PHI greater than secretin greater than GRF in rat, and VIP greater than GRF greater than PHI greater than secretin in man. The important species specificity of VIP receptors in recognizing PHI and secretin does not occur in the case of GRF. GRF stimulates adenylate cyclase through its interaction with VIP receptors in rat and human membranes. However, while GRF behaves as a VIP agonist in human tissue, it is a partial agonist/antagonist of VIP in the rat.
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PMID:Interaction of GRF with VIP receptors and stimulation of adenylate cyclase in rat and human intestinal epithelial membranes. Comparison with PHI and secretin. 630 54

Secretin, a gut-brain peptide, elicited cyclic AMP production in a clone of neuroblastoma cells derived from the C1300 mouse tumor. Adenylate cyclase (EC 4.6.1.1) in plasma membranes from these cells was stimulated by secretin greater than vasoactive intestinal peptide greater than peptide histidine isoleucine amide, but not by the related peptides glucagon, gastric inhibitory polypeptide, or human growth hormone releasing factor. Hill coefficients for stimulation approximated one and the response to submaximal peptide concentrations was additive, as expected for hormones competing for a single receptor associated with the enzyme. Binding of 125I-labeled secretin to the neuroblastoma plasma membranes was saturable, time-dependent, and reversible. The KD determined from kinetic and equilibrium binding studies approximated 1 nM. The binding site displayed marked ligand specificity that paralleled that for stimulation of adenylate cyclase. The secretin receptor was regulated by guanine nucleotides, with guanosine 5'-(beta, gamma-imino)-triphosphate being the most potent to accelerate the rate of dissociation of bound secretin. These findings demonstrate the functional association of the secretin receptor with adenylate cyclase in neuronally derived cells.
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PMID:Secretin receptors on neuroblastoma cell membranes: characterization of 125I-labeled secretin binding and association with adenylate cyclase. 632 61

Pretreatment of primary cultures of rat anterior pituitary cells with 500 pM rhGRF for 24 h resulted in a partial loss of responsiveness to GRF. When pretreated cells were rechallenged with increasing concentrations of rhGRF, maximal GH secretion was significantly lower than control, since prolonged exposure to the peptide resulted in depletion of releasable GH pools: 3.04 +/- 0.39 and 0.63 +/- 0.08 micrograms GH per 0.15 X 10(6) cells in control and treated cells, respectively. Possible desensitization, however, was indicated, since chronic exposure to rhGRF increased the EC50 for GH secretion by 5.5-fold. Pretreatment with 2 mM 8BrcAMP for 24 h also caused significant depletion of cellular GH. Consequently, maximal GH secretory response of these cells was blunted as well. However, in contrast to rhGRF-pretreatment, 8BrcAMP-pretreatment did not significantly affect the EC50 value for GH secretion. As another index for cellular responsiveness, cAMP production was also monitored. After a 24-h incubation with 500 pM rhGRF, attenuation of adenylate cyclase activity was evident, since the EC50 value for cAMP production was 2.8-fold greater than control. These results suggest that prolonged pretreatment with GRF results in a partial loss of responsiveness to GRF and this may be explained by desensitization and to some extent by depletion of GH stores.
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PMID:Chronic exposure of cultured rat anterior pituitary cells to GRF causes partial loss of responsiveness to GRF. 643 12

Primary cell cultures were prepared from fetal, neonatal and adult rat pituitaries and evaluated for their ability to secrete growth hormone (GH) in response to growth hormone-releasing factor (GRF). Pituitary cells prepared from fetuses at days 19 and 21 of gestation, neonatal animals at the day of birth (day 0) or the following day (day 1) and peripubertal male rats showed full dose response curves to GRF with maximal GH release when stimulated with 1 X 10(-10) M rat GRF. At this concentration of GRF, the amount of GH released was not different from that elicited by activation of adenylate cyclase with 1 X 10(-5) M forskolin. In contradistinction, a preparation of cells from fetuses at day 18 of gestation did not show the same release of GH when challenged with 1 X 10(-10) M GRF and forskolin (0.057 +/- 0.001, compared to 0.076 +/- 0.003 micrograms/10(5) cells per 4.5 h), although the cells clearly responded to both secretagogues (basal levels of GH, 0.029 +/- 0.002 micrograms/10(5) cells per 4.5 h). While cells prepared from fetuses at day 21 of gestation or from animals after birth released 5-10% of their total cellular GH content, those prepared from 18- and 19-day fetuses released as much as 40% of their total GH suggesting there is a maturation of intracellular GH processing that occurs late in gestation. The results show that, in late pregnancy, the rat fetal pituitary is highly responsive to growth hormone-releasing factor and suggest that this peptide participates in regulating GH levels during the perinatal period.
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PMID:Ontogeny of the response to growth hormone-releasing factor. 644 42

The pathophysiology of mammosomatotroph adenomas remains unclear. We studied a mammosomatotroph adenoma removed from an 8-year old boy with a 5-year history of growth acceleration and acromegalic gigantism at presentation. Elevated basal GH (mean 28 micrograms/l) and PRL (mean 120 micrograms/l) plasma levels were observed, as well as paradoxical responses of GH to L-dopa, TRH and oral glucose administration; PRL was reduced by L-dopa and slightly increased by TRH; GHRH stimulated release of both GH and PRL. Two operations were required to remove the very large tumour and the patient was treated with bromocriptine before the second. Hormonal secretion by tumour explants in culture was evaluated under basal conditions and after stimulation or inhibition. High levels of GH and PRL were secreted for up to 24 days. Furthermore, GHRH and TRH caused a dose-related stimulation of both hormones, while somatostatin and dopamine were effective in suppressing either basal or stimulated hormone release only at very high (microM) concentrations. Intracellular events were studied by determination of the guanosine triphosphate binding (G) protein levels and adenylate cyclase (AC) activity in the tumour tissue. Before bromocriptine treatment, AC activity was very high in the tumour and could be further stimulated by various agents; very high levels of the AC-stimulatory G protein alpha subunit Gs alpha and very low amounts of the AC-inhibiting G protein alpha subunit Gi3 alpha and of the phospholipase C-stimulating G protein alpha subunit Gq alpha were found in the tumour. After bromocriptine, baseline AC activity was normalized and could no longer be stimulated; Gs alpha and Gi3 alpha levels were unchanged while those of Gq alpha were normalized. Screening of tumour DNA after amplification by polymerase chain reaction followed by single-strand conformational polymorphism analysis did not reveal any mutations in the hot spots of G protein alpha subunits (alpha s, alpha i2, alpha o2 and alpha 11) genes or in the H-ras and p53 genes. Gs alpha and GH transcription factor-1 (pit-1) expression were evaluated by amplification of cDNA. While the mRNA expression of pit-1 decreased after bromocriptine treatment, that of Gs alpha increased. These data suggest the possibility of an oncogenic process involving overexpression of Gs alpha, resulting in chronic activation of adenylate cyclase. Furthermore, our results suggest that the anti-secretory and anti-proliferative effects of bromocriptine may be mediated through a decrease in Pit-1 secondary to the inhibition of adenylate cyclase activity.
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PMID:Mammosomatotroph adenoma causing gigantism in an 8-year old boy: a possible pathogenetic mechanism. 762 75

A GHRH-like mRNA and peptide (t-GHRH) have been detected in rat and human testis. In rat, t-GHRH mRNA is localized to developing spermatogenic cells. We predicted that the most likely target cell of t-GHRH action would be the Sertoli cell. To test this prediction, we evaluated GHRH action on Sertoli cell function. Rat GHRH at a concentration of 10 nM or 100 nM stimulated cAMP production 2-fold over control levels after a 30 min incubation. This stimulation was obliterated by preincubation with a 10-fold excess of the GHRH antagonist (N-Ac-Tyr1, D-Arg2)-GRF(1-29)-NH2. The effect of treatment with [His1,Nle27]GHRH(1-32)-NH2, a GHRH analog, on Sertoli cell mRNAs was also assessed. Treatment with the analog significantly increased levels of c-fos and steel factor (the product of the Steel gene, also termed SCF) mRNAs above controls, but had no effect on sulfated glycoprotein-2 mRNA. We conclude that GHRH acts via adenylate cyclase to modulate specific Sertoli cell products, possibly as part of a network of local interacting factors controlling Sertoli and germ cell function.
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PMID:A new target for growth hormone releasing-hormone action in rat: the Sertoli cell. 768 61

Calcium and phosphorus metabolism is mainly regulated by PTH through its actions on kidney and bone. PTHrP, which is associated with the hypercalcemia of malignancy syndrome, binds to and activates the same receptor that PTH does. cDNA clones of PTH/PTHrP receptors from rat osteosarcoma (ROS 17/2.8) and opossum kidney (OK) cells are highly homologous and are members of a novel G protein-linked receptor family that includes calcitonin, glucagon, GLP-1, GHRH, VIP, and secretin receptors. Analysis of the protein sequence predicts a receptor with 7 transmembrane domains, a 155 amino acids (aa) extracellular (EC) N-terminal, and 130aa intracellular C-terminal domaina. The extracellular domain has 6 conserved cysteines and 4 potential glycosylation sites. When transfected in COS cells, both receptors are able to bind PTH and PTHrP active fragments with equal affinity. Likewise, agonists activate both adenylate cyclase and phospholipase C efficiently. The N-terminal EC domain and the first EC loop seem to determine the receptor binding capacity with the agonists. Activation of adenylate cyclase and phospholipase C might involve multiple sites between the 3rd helix and the C-terminal tail. Partial characterization of the rat PTH/PTHrP receptor gene demonstrates the existence of at least 15 exons. The first six transmembrane domains are encoded by separated exons. The PTH/PTHrP receptor mRNA is expressed mainly in kidney and bone, and also is widely expressed in many tissues, but not all. A major 2.3-2.5 kb transcript is observed in all these tissues. Nevertheless, 2 larger transcripts are observed in kidney and liver, and multiple smaller mRNA species are observed in kidney, skin, and testis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Mode of action of parathyroid hormone (PTH) and PTH-related peptide (PTHrP) in target organs]. 785 77

The functional study of SRIH receptors was performed in ectopic GHRH-secreting tumors from two patients with acromegaly; patient 1 presented with multiple endocrine neoplasia type 1 with GHRH- and insulin-secreting pancreatic tumors, and patient 2 presented with a multihormone-secreting carcinoid tumor (including GHRH and alpha-subunit secretion, as demonstrated by clinical and immunohistochemical studies). In both cases, plasma GH levels were responsive to octreotide. In patient 2, plasma GHRH and alpha-subunit levels were responsive to octreotide. In vitro perifusion studies of a tumor fragment from patient 1 also showed inhibition of GHRH secretion by SRIH. A high density of specific SRIH-binding sites was visualized by autoradiography in GHRH tumors from both patients. SRIH specific binding was much higher in the GHRH tumors (6.6-8.4 fmol/surface unit) than in the insulinoma (1.9 fmol/surface unit). The binding inhibition constant (IC50) was in the nanomolar range (0.9-3 nmol/L) in the GHRH tumors. SRIH-14 inhibited forskolin-stimulated adenylate cyclase in the GHRH tumors from both patients, but not in the insulinoma. The functional SRIH receptors negatively coupled to adenylate cyclase present in ectopic GHRH-secreting tumors mediate the inhibitory effect of octreotide on GHRH secretion and on previously underrecognized ectopic alpha-subunit secretion from carcinoid tumors.
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PMID:Presence of somatostatin receptors negatively coupled to adenylate cyclase in ectopic growth hormone-releasing hormone- and alpha-subunit-secreting tumors from acromegalic patients responsive to octreotide. 796 43

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