Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Utilizing histones as a substrate and measuring the production of labelled phosphoserine from [gamma 32P-ATP], cAMP stimulated protein kinase activity was found in islet and anterior pituitary secretory vesicles. Cyclic AMP (5 X 10(-7)m)stimulated islet secretory vesicle protein kinase activity as evidenced by a net increase of 32P incorporation into phosphoserine 7.35 +/- 1.68 pmoles/micrograms, (P LESS THAN 9001). Somatostatin (0.1 ng/microgram) decreased 32P phosphoserine production from 10.64 +/- 1.72 to 5.61 +/- 1.26 pmoles/microgram (Pless than .01) by suppressing cAMP stimulated protein kinase activity. In pituitary secretory vesicles, cAMP (5 X 10(-6M) increased 32P incorporation into TCA precipitable protein from 127.3 +/- 8.6 to 202.6 +/- 12.5 pmoles/microgram, P less than .001. With somatostatin (0.2 ng/microgram) there was 55.25+/- 1.95% inhibition of cAMP stimulated protein kinase activity, (P LESS THAN .001). Somatostatin did not inhibit cAMP stimulated protein kinase activity in erythrocyte membrane ghosts nor did somatostatin inhibit the partially purified cAMP dependent protein kinase from cardiac muscle. These data suggest that either (1) a specific somatostatin sensitive dependent protein kinase is present in islet and anterior pituitary secretory vesicles or (2) that a somatostatin receptor is present in these tissues which allows somatostatin to act selectively at these sites. Somatostatin may act by inhibiting the cAMP dependent protein kinase enzme in certain key tissues or subcellular organelles.
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PMID:Somatostatin: selective inhibition of cyclic AMP stimulated protein kinase. 22 50

The cyclic AMP (cAMP) response elements (CREs) of the somatostatin and vasoactive intestinal peptide (VIP) promoters contain binding sites for CRE-binding protein (CREB) that are essential for cAMP-regulated transcription. Using F9 embryonal carcinoma cells, we show that the somatostatin and VIP promoters exhibit a differentiation-dependent cAMP response, demonstrating that these promoters are regulated by transcription factors that become active during differentiation. Lack of cAMP responsiveness of the somatostatin promoter in undifferentiated cells is not due to the absence of known positive-acting factors (the catalytic subunit of protein kinase A [cPKA] and CREB) or a general inhibition of protein kinase A activity. Since overexpression of exogenous cPKA and CREB is sufficient to activate the somatostatin promoter in undifferentiated cells, these findings suggest that a negative factor(s) represses endogenous cPKA and CREB. In contrast to their effects on somatostatin, exogenous CREB and cPKA do not activate the VIP promoter. Thus, despite coregulation during differentiation and the ability to bind CREB, the somatostatin and VIP promoters are not coordinately activated by CREB in undifferentiated F9 cells.
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PMID:Cyclic AMP response element-binding protein and the catalytic subunit of protein kinase A are present in F9 embryonal carcinoma cells but are unable to activate the somatostatin promoter. 134 42

We have recently shown that in rat parietal cells the glucagon-like peptide 1 (GLP-1) variants 7-36 amide, 1-37, and 1-36 amide stimulate H+ production as indirectly measured by [14C]aminopyrine (AP) accumulation. This response to the GLP-1 peptides was intracellularly mediated by activation of adenylate cyclase and by adenosine 3',5'-cyclic monophosphate (cAMP) as second messenger. In the present study, we compared prostaglandin (PG)E2, somatostatin, and the protein kinase A antagonist Rp-adenosine-3',5'-monophosphorothioate (Rp-cAMPS) with respect to their inhibitory effects on parietal cell function induced by GLP-1 or histamine. PGE2 and somatostatin noncompetitively inhibited AP accumulation and cAMP production in response to the GLP-1 variants and histamine (IC50): [mean inhibitory concn 5 x 10(-9) M PGE2; 3 x 10(-7) somatostatin]; at their maximal concentrations PGE2 (10(-7) M) and somatostatin (10(-6) M) caused 85 and 65% inhibition, respectively. Treatment with pertussis toxin (PT; 250 ng/ml; 4 h) reversed the inhibitory effect of PGE2 and somatostatin on AP accumulation and cAMP production. At 2 x 10(-3) M (IC50: 3 x 10(-4) M) Rp-cAMPS completely inhibited AP accumulation induced by the GLP-1 variants or histamine; this effect was insensitive to PT. Specificity of Rp-cAMPs as protein kinase A inhibitor is suggested by inhibition of AP accumulation in response to Sp-cAMPS and N6,O2-dibutyryl adenosine 3',5'-cyclic phosphate sodium, and forskolin, activators of protein kinase A and adenylate cyclase, respectively. We conclude that the parietal cell responses to GLP-1 and histamine are inhibited by identical mechanisms. Effects of PGE2 and somatostatin are mediated by the PT-sensitive subunit of adenylate cyclase Gi, whereas Rp-cAMPS interferes with cAMP-dependent mechanisms that are insensitive to PT.
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PMID:Pertussis toxin-sensitive and pertussis toxin-insensitive inhibition of parietal cell response to GLP-1 and histamine. 134 5

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

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

Transcription of the ornithine decarboxylase (ODC) gene is rapidly elevated by activation of protein kinase A (PKA). The additive influence of three cis-acting elements is responsible for this regulation in an adrenal carcinoma cell line. Two sites, CRE2 at -48 base pairs (bp) relative to the start of transcription and CRE3 at +95 bp, are identical to the core motif of the cAMP-responsive element (CRE) of the somatostatin gene and are conserved in the mouse, rat, and human ODC genes. Mutation of CRE2 resulted in a substantial decrease in basal promoter activity, as well as a 5-fold decrease in inducibility of the ODC promoter by PKA. CRE3 did not contribute to the basal activity of the ODC promoter, but mutation of this site resulted in a 2-fold decrease in inducibility by PKA. Deletion of a 45-bp sequence (GC-box) located 5' of CRE2, also resulted in a 2-fold decrease in inducibility of the ODC promoter. DNase I protection revealed the presence of protein binding at CRE2, the TATA box, and the GC-box of the ODC promoter. Mutation of CRE2 resulted in loss of protection of this sequence, as well as the 3' extension of the footprint over the TATA box, without affecting interactions at the GC box. Antibodies to the well characterized CRE-binding protein CREB recognized proteins binding to CRE2, suggesting that binding of CREB, or an antigenically related protein, is important for the activity of CRE2. Additionally, recombinant CREB bound to a DNA probe containing the CRE2 sequence.
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PMID:Multiple DNA elements responsible for transcriptional regulation of the ornithine decarboxylase gene by protein kinase A. 135 8

We employed a cyclic AMP-resistant subclone of UMR 106-01 osteoblastic osteosarcoma cells (UMR 4-7) with a regulated, dominant-negative mutation of cyclic AMP-dependent protein kinase (PK-A), to examine the mechanism(s) whereby parathyroid hormone (PTH) regulates growth of these cells. Expression of a transiently transfected CAT reporter gene controlled by the cAMP response element of the rat somatostatin gene ('SST-CAT') was used to monitor PK-A activation in intact cells. Agonist-stimulated SST-CAT expression was specific for agents known to activate adenylate cyclase, required an intact cAMP response element and was specifically blocked following induction of the mutant cAMP-resistant phenotype in UMR 4-7 cells. Inhibition of the proliferation of UMR 106-01 cells by PTH, which is mimicked by forskolin and 8-bromo-cAMP, was blocked completely in mutant cyclic AMP-resistant UMR 4-7 cells. We conclude that control of proliferation in UMR 106-01 cells by PTH involves the cAMP messenger system and requires activation of PK-A.
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PMID:Regulation of gene transcription and proliferation by parathyroid hormone is blocked in mutant osteoblastic cells resistant to cyclic AMP. 135 85

The secretion of growth hormone (GH) is controlled by a complex regulatory system. The primary control is exerted by two neuroendocrine hormones, GH-releasing hormone and somatostatin, though other hypothalamic neuropeptides directly and indirectly participate in this process. The regulation of each of these neurohormones is now being clarified at both physiologic and molecular levels, as are their respective roles in the generation of pulsatile GH secretion and in GH feedback regulation. Considerable information has been amassed concerning signal transduction systems mediating the effects of hypothalamic hormones on GH secretion. Although multiple second messengers have been implicated, the adenylate cyclase-cyclic AMP-protein kinase A system appears to exert a predominant role. The developmental regulation of the somatotropes and of GH gene expression is also of importance in determining the GH responses to releasing and inhibiting hormones. The availability of several rodent strains with genetic disorders of growth associated with impaired GH secretion, along with the development of transgenic models, has permitted a more detailed analysis of the role of cytokines and growth factors on both somatotrope biology and hormone secretion. Finally, knowledge gained from studies in animals is permitting a better understanding of the mechanisms involved in physiologic GH secretion and altered GH secretion associated with specific disease states in humans.
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PMID:Regulation of growth hormone secretion. 136 Sep 11

Cyclic AMP regulates a variety of cellular responses through activation of the catalytic subunit of cAMP-dependent protein kinase. The cDNAs for two protein isoforms of the catalytic subunit, C alpha and C beta, were placed into expression vectors, and their ability to stimulate cAMP-dependent transcription of the human enkephalin promoter was examined in transiently transfected CV-1 cells. Expression vectors for C alpha and C beta that were directed by the human cytomegalovirus promoter produced up to 350- and 200-fold increases in chloramphenicol acetyltransferase activity, respectively, when cotransfected with the ENKAT-12 reporter plasmid. Transcriptional activation was shown to be dependent upon functional kinase activity by point mutations in catalytic subunit vectors which eliminated activation. Transcriptional activation by C alpha and C beta was eliminated when the cAMP response elements (CREs) were deleted from the native enkephalin promoter, but activation was recovered when this region was replaced with an oligonucleotide containing two copies of the somatostatin CRE consensus TGACGTCA. C alpha expression vectors were found to produce 2-fold greater transcriptional activation than C beta expression vectors. These results were most likely due to the cellular kinase activity produced by the catalytic subunit expression vectors and did not appear to be dependent on CRE motif or substrate specificity. In vitro mutagenesis indicates that neither C alpha nor C beta requires N-terminal myristylation for transcriptional activation, but threonine-197 is critical to subunit function.
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PMID:Regulation of the human enkephalin promoter by two isoforms of the catalytic subunit of cyclic adenosine 3',5'-monophosphate-dependent protein kinase. 165 33

We have established mutant SaOS-2 cell lines that express a cyclic AMP (cAMP)-resistant phenotype to investigate the regulation and functional importance of orthophosphoric-monoester phosphohydrolase alkaline optimum (ALPase) in the action of parathyroid hormone (PTH). Cells were stably transfected with a plasmid that directs the synthesis of a mutant form of the type I regulatory subunit of protein kinase A (PKA) under the control of the metallothionein promotor. There was no significant difference between parental SaOS-2 cells and the mutant lines in the affinity or number of receptors for 125I-Nle8,18Tyr34bPTH1-34NH2, either in the absence or presence of Zn2+. When cAMP-dependent gene transcription was examined using transient transfection with a somatostatin promoter-chloramphenicol acetyl transferase (CAT) reporter plasmid, CAT activity stimulated by human PTH and dibutyryl cAMP (DBcAMP) was inhibited by greater than 90% in the presence of Zn2+ in the mutant cell lines. In contrast, activation by a phorbol ester of a pentameric collagenase promoter/CAT construct containing five tandem copies of the AP-1 response element (5x-TRE-CAT) was unaffected in Zn(2+)-treated mutant cells. The inhibitory actions of PTH and DBcAMP on ALPase release were blunted by up to 80-90% in the mutant cell lines in the presence of Zn2+; there were no significant differences in the magnitude of inhibitory effects between these agonists. We conclude that the inhibitory action of PTH on ALPase release in SaOS-2 cells is mediated via activation of PKA. These cAMP-resistant cell lines will be especially useful in elucidating signal transduction mechanism(s) for PTH in human osteoblastic cells.
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PMID:Protein kinase A-dependent inhibition of alkaline phosphatase release by SaOS-2 human osteoblastic cells: studies in new mutant cell lines that express a cyclic AMP-resistant phenotype. 166 91


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