UNIPROT:P61278 - FACTA Search

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Query: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of somatostatin-28, somatostatin-14, and a synthetic somatostatin octapeptide analogue, D-Phe-Cys-Tyr-D-Trp-Lys-Thr-Cys-Nal-NH2 (cyclo SS-8) were examined on contraction of dispersed gastric smooth muscle cells from guinea pigs. The somatostatins did not cause contraction of gastric smooth muscle cells, nor did they inhibit carbachol-stimulated contraction. However, they reversed vasoactive intestinal peptide (VIP)-induced inhibition (relaxation) of carbachol-stimulated contraction. Somatostatin-28 had a half-maximal effect (EC50) at 1.6 +/- 0.8 nM, cyclo SS-8 at 0.6 +/- 0.3 nM, but somatostatin-14 had no effect even when used in concentrations as high as 1 microM. Incubation of muscle cells with peptidase inhibitors phosphoramidon (1 microM) plus amastatin (10 microM) had no effect on the EC50 of somatostatin-28 or cyclo SS-8 but increased the potency of somatostatin-14 greater than 1,000-fold. When peptides were incubated with muscle cells and the products applied to high-performance liquid chromatography, cyclo SS-8 was not degraded, but somatostatin-14 was rapidly degraded when present alone, and the addition of peptidase inhibitors partially inhibited the degradation. Cyclo SS-8 had its maximal effect at 0.5-1 min and inhibited relaxation induced by VIP, isoproterenol, glucagon, or dibutyryl adenosine 3',5'-cyclic monophosphate (DBcAMP). Cyclo SS-8 partially inhibited the increase in VIP-stimulated cAMP. Preincubation with pertussis toxin blocked the inhibitory action of cyclo SS-8 on VIP or DBcAMP-induced relaxation. These results indicate that gastric smooth muscle cells rapidly degrade somatostatin-14 and suggest that muscle cell peptidases could have a major effect on the actions of somatostatin-14.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Actions of somatostatins on gastric smooth muscle cells. 134 75

The transactivation of genes through the cAMP-regulated enhancer (CRE) is proposed to occur by the binding and phosphorylation of the transcription factor CREB (CRE-binding protein). Originally believed to be a single protein, more than 10 different CREB proteins have been cloned. The contributions of each of these factors to gene regulation have yet to be determined unambiguously. We have isolated a CREB cDNA that contains a mutation of a single amino acid in the DNA-binding domain. In gel shift assays, this mutant, designated KCREB, is unable to bind to the somatostatin (SS) CRE. In addition, KCREB acts as a dominant repressor of the wild-type factor, blocking the ability of wild-type CREB to bind to the CRE when present as a KCREB:CREB heterodimer. The KCREB mutant also acts as a dominant repressor in vivo, completely blocking the ability of wild-type CREB to mediate induction by protein kinase-A of a SS CRE reporter gene in F9 teratocarcinoma cells. We have used this mutant to analyze the participation of CREB in the induction of the SS promoter in CA-77 cells, a medullary thyroid carcinoma cell line that produces high levels of SS. Although KCREB can block a portion of the cAMP induction of the SS promoter in CA-77 cells, approximately 45% of the induction remains insensitive to the mutant. These data support the paradigm that CREB is involved in the cAMP induction of SS in vivo. Furthermore, the inability of KCREB to completely block cAMP-mediated SS expression in CA-77 cells suggests that additional factors may contribute to the cAMP regulation of CRE function.
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PMID:A dominant repressor of cyclic adenosine 3',5'-monophosphate (cAMP)-regulated enhancer-binding protein activity inhibits the cAMP-mediated induction of the somatostatin promoter in vivo. 135 57

The expression of the genes encoding the hormones glucagon, insulin, somatostatin, and pancreatic polypeptide in the endocrine islets of the pancreas is regulated in a cell-specific manner, defining four distinct cellular phenotypes (A-, B-, D-, and F-cells, respectively). Binding of nuclear proteins to cognate DNA sequences within cis-acting regulatory elements mediates the transcriptional events that result in the cell-specific activation or repression of gene expression. In a parallel study, we describe the functional properties of the SMS-UE, a pancreatic islet D-cell specific enhancer element that regulates the expression of the somatostatin gene and contains two interdependent domains, A and B. In the studies described herein, we have characterized the nuclear proteins that recognize the SMS-UE. Domain A of the SMS-UE is a DNA enhancer sequence that is identical to that bound by the ubiquitously distributed CCAAT box-binding protein alpha-CBF, a transcription factor that regulates the expression of the human chorionic gonadotrophin alpha-subunit gene. The B-domain, on the other hand, binds an islet cell-specific protein with characteristics similar to those of Isl-1, a transcriptional activator protein that binds to the E2 enhancer of the rat insulin-1 gene. In addition, the SMS-UE binds transcription factor CREB but not CREM, the close homolog of CREB, on a site adjacent to, or overlapping, the 3' end of domain B. We show that the carboxyl-terminal bZIP domain of CREB binds to the cAMP response element of the somatostatin gene but is not sufficient for binding to the SMS-UE, and we present evidence suggesting that CREB.SMS-UE binding requires stabilization by a region of the protein located within the transactivation domain.
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PMID:Somatostatin gene upstream enhancer element activated by a protein complex consisting of CREB, Isl-1-like, and alpha-CBF-like transcription factors. 135 92

We have examined the mechanism by which the transcriptional activity of the cAMP-responsive factor CREB is attenuated following induction with forskolin. Metabolic labeling studies reveal that, after an initial burst of phosphorylation in response to cAMP, CREB is dephosphorylated and transcription of the cAMP-responsive somatostatin gene is correspondingly reduced. The phosphatase inhibitor 1 protein and okadaic acid both prevented the dephosphorylation of CREB at Ser-133 in PC12 cells and also augmented the transcriptional response to cAMP. Of the four Ser/Thr phosphatases described to date, only PP-1 appears to be similarly inhibited by these agents. As PP-1 specifically dephosphorylates CREB at Ser-133 and inhibits cAMP-dependent transcription, we propose that this phosphatase is the major regulator of CREB activity in cAMP-responsive cells.
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PMID:Transcriptional attenuation following cAMP induction requires PP-1-mediated dephosphorylation of CREB. 135 81

It is found that secretion of pancreastatin and somatostatin from QGP-1N cells is regulated through muscarinic receptor-mediated activation of phosphatidylinositide hydrolysis system. In this report, whether the cAMP pathway interacts with the phosphoinositide turnover system for the secretion of pancreastatin and somatostatin from QGP-1N cells through muscarinic receptors was studied. Stimulation of QGP-1N cells with carbachol increased intracellular cAMP levels. The carbachol-induced increase in cAMP levels was inhibited by atropine. Calcium ionophore (A23187) and phorbol 12-myristate 13-acetate increased cAMP synthesis. Dibutyryl cAMP, forskolin and theophylline stimulated secretion of pancreastatin and somatostatin. When either dibutyryl cAMP, forskolin or theophylline was added in culture medium with A23187, phorbol ester or carbachol, a synergistic effect was found on pancreastatin and somatostatin secretion. These results suggest that interaction between the phosphoinositide turnover system and the cAMP pathway occurs in QGP-1N cells through muscarinic receptor stimulation for the secretion of pancreastatin and somatostatin.
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PMID:Interaction between phosphoinositide turnover system and cyclic AMP pathway for the secretion of pancreastatin and somatostatin from QGP-1N cells. 135 80

Many eukaryotic genes are regulated by cAMP through a conserved cAMP response element (CRE). Here we show that, in the pancreatic islet cell line Tu6, a well-characterized CRE in the somatostatin gene does not provide cAMP responsiveness but functions as an essential element for its basal activity. DNA-binding and functional analyses indicate that the cAMP-responsive factor CREB regulates somatostatin expression in these cells without requirement for phosphorylation at the protein kinase A-regulated Ser-133 phosphorylation site. In addition to the CRE site, cell-specific expression of the somatostatin gene requires a second promoter element, which binds the recently characterized LIM family protein Isl-1. Thus, Isl-1 and CREB appear to synergize on the somatostatin promoter to stimulate high-level expression in Tu6 cells. The ability of CREB to function in a phosphorylation-independent manner suggests a mechanism by which this protein can regulate gene transcription.
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PMID:The LIM family transcription factor Isl-1 requires cAMP response element binding protein to promote somatostatin expression in pancreatic islet cells. 135 85

The densest distribution of somatostatin (SRIF) neuron perikarya is localized in the hypothalamic periventricular nucleus (Pe) close to the third ventricle, from which many fibers are projected to the median eminence. The release of SRIF in the neurohemal organ into the anterior pituitary modulates GH secretion from pituitary somatotrophs. When SRIF input from the hypothalamus to rat anterior pituitary is reduced by either neurosurgery or SRIF antiserum iv injection, the responsiveness of the pituitaries to human GH releasing factor (hGRF) in an in vitro perifusion system is markedly attenuated. Moreover, SRIF pretreatment facilitates the GH release response of dispersed anterior pituitary cells to hGRF. The long lasting SRIF effect to sensitize somatotrophs appears to take place beyond cAMP formation or as an unknown distal effect. These findings indicate that SRIF neurons in the Pe play a role in maintaining the pituitary responsiveness to GRF in addition to the original action to inhibit GH secretion. Neuronal networks between Pe-SRIF neurons, and intra- and extrahypothalamic nuclei are identified by Pe stimulation test on GRF-GH secretion. In addition to the physiological role in maintaining pituitary responsiveness, Pe SRIF neurons have a wide influence on specific SRIF receptor binding in various brain regions as well as in the anterior pituitary. Shortly after lesioning the Pe neurons, there is a continuous increase in plasma GH level with a transient increase in specific binding of 125I-Tyr 11-SRIF-14 to the anterior pituitary. Furthermore, there is a similar but a little longer increase in binding of the radioligand to some brain areas such as the cerebral cortex, hippocampus, and amygdala nuclei. However, neuronal connections between the SRIF neurons and nuclei which are up-regulated by the lesioning have not been fully proven. When the labeled ligand is infused into the lateral ventricle, it is rapidly and widely distributed in many periventricular structures in the lateral and third ventricles. These findings suggest that SRIF produced in the Pe neurons is transported to other brain areas via cerebrospinal fluid in addition to neuronal connections for modulating the activity of neurons which have SRIF receptors. Thus, hypothalamic Pe SRIF neurons have dualistic roles for controlling anterior pituitary function and modulating CNS neuron activity.
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PMID:[A hypothalamic hormone-somatostatin--from endocrinology to neurophysiology]. 135 33

Catecholamines acting through beta 1- and beta 2-adrenoceptors cause positive inotropic and chronotropic effects in the human heart. In recent years, however, evidence has accumulated that in the human heart also other receptor systems can affect heart rate and/or contractility. Positive inotropic effects can be mediated by receptor systems acting through accumulation of intracellular cAMP (Gs-protein coupled receptors such as 5-HT4-like, histamine H2, and vasoactive intestinal peptide) or by receptor systems acting independent of cAMP possibly through the phospholipase C/diacylglycerol/inositol-1,4,5-trisphosphate pathway (such as alpha 1-adrenergic, angiotensin II, and endothelin). In the non-failing human heart, however, activation of all these receptor systems induces only submaximal positive inotropic effects when compared with those caused by beta-adrenoceptor stimulation, indicating that in humans the cardiac beta-adrenoceptor-Gs-protein-adenylate cyclase pathway is the most powerful mechanism to increase heart rate and contractility. On the other hand, at least three receptor systems acting through inhibition of cAMP formation (Gi-protein coupled receptors) exist in the human heart: muscarinic M2-, adenosine A1-, and somatostatin-receptors. Activation of M2- and A1-receptors causes negative inotropic effects in the non-failing human heart: in atria activation of both receptors causes decreases in basal as well as in isoprenaline-stimulated force of contraction, but in ventricles only isoprenaline-stimulated force of contraction is depressed.
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PMID:Receptor systems in the non-failing human heart. 135 55

Intracellular calcium [Ca2+]i acts as an important intracellular messenger system for secretion and synthesis, cell growth and differentiation. In order to demonstrate definitively that a change in [Ca2+]i is responsible for a physiological event, one has to measure [Ca2+]i directly within intact cells and correlate the time course of any [Ca2+]i changes with the biological response. Measurement of [Ca2+]i was done in a single cell preloaded with fluorescent Ca indicator fura2 using a fluorescent unit (lonoquant) consisting of an inverted microscope (Zeiss IM 35) equipped with a mercury lamp and a rotating filter wheel containing filters at wavelengths of 340 and 380 nm. Cells were alternately excited and emission signals of fura 2-loaded cells were collected by a photomultiplier and recorded on-line on a computer screen. As a model system, the rat C-cell carcinoma cell line rMTC 6-23 secreting calcitonin was used. An acute elevation of extracellular calcium resulted in an increase in [Ca2+]i within 5 sec and rapid release of preformed calcitonin. This tight linkage between extracellular calcium and [Ca2+]i is mediated via Ca influx through voltage-dependent Ca channels. These channels are modulated by intracellular cAMP, yielding a rhythmic oscillation of [Ca2+]i, as well as by extracellular somatostatin blocking the Ca channel and the increase of [Ca2+]i via a pertussis toxin sensitive Gi protein. The change in [Ca2+]i is associated with changes in calcitonin secretion, confirming the stimulus secretion coupling via voltage-dependent Ca channels in C-cells.
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PMID:Measurement of free cytosolic calcium in single cells: method and application. 135 76

The effect of somatostatin on cAMP accumulation and calcitonin secretion in C-cells of the rat medullary thyroid carcinoma cell line rMTC 6-23 was investigated. Intracellular cAMP accumulation as well as calcitonin secretion could be dose-dependently stimulated by rat growth hormone releasing factor (rGRF). The long-acting somatostatin analogue octreotide inhibited rGRF-stimulated cAMP accumulation and calcitonin secretion dose dependently but failed to block 8-bromo-cAMP-stimulated calcitonin secretion. The inhibitory effect of octreotide on rGRF-induced calcitonin secretion was partially abolished by pretreating the cells with pertussis toxin. The octreotide effect was not due to changes in the degradation of cAMP, as it was similarly seen in the presence of isobutylmethylxanthine. Thus we conclude that pertussis toxin-sensitive G-proteins are involved in the cAMP-mediated regulation of calcitonin secretion in C-cells.
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PMID:Inhibitory effect of somatostatin on cAMP accumulation and calcitonin secretion in C-cells: involvement of pertussis toxin-sensitive G-proteins. 135 52

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