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 clinicopathologic features of an adult with insulinoma and pancreatic islet cell hyperplasia, who presented with hyperinsulinemic hypoglycemia are reported, together with in vitro studies on the patient's pancreatic islets. Islet cell hyperplasia with ductal proliferation and budding and beta cell degranulation was demonstrated by immunochemical means. The in vitro studies of cultured hyperplastic islet cells support the clinicopathologic features. Thus, in comparison with control islets maintained in culture for up to 14 days, hyperplastic islets could be cultured for up to 60 days, during which time cell overgrowth required subculture on three occasions. Furthermore, in contrast to control islets the release of both insulin and somatostatin from cultured hyperplastic islets was refractory to glucose, glucagon, and tolbutamide; theophylline was the only secretagogue to stimulate insulin and somatostatin release from hyperplastic islets in vitro. Indirect immunofluorescence revealed the presence of islet cell surface autoantibodies in the plasma of this patient reactive with both normal human islets and a rat insulinoma line (RIN-m5F). These studies demonstrate the proliferative capacity and relatively undifferentiated functional state of hyperplastic islets in vitro. They provide further evidence that islet cell division is capable of being stimulated in adult life. The pathogenic significance of islet cell surface autoantibodies in hyperplastic islet cell disease and insulinoma warrants further investigation.
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PMID:Nesidioblastosis and multifocal pancreatic islet cell hyperplasia in an adult. Clinicopathologic features and in vitro pancreatic studies. 286 76

We have previously found that preprosomatostatin is processed accurately to both somatostatin-14 and somatostatin-28 in pituitary gonadotrophs of transgenic mice. The foreign somatostatin peptides have been shown to enter the regulated secretory pathway of these cells. To determine whether accurate preprosomatostatin processing can occur in any neuroendocrine cell, we introduced preprosomatostatin cDNA expression vectors into several different neuroendocrine cell lines. We found that prosomatostatin was cleaved efficiently to somatostatin-14 and somatostatin-28 in RIN 5F and AtT20 cells, but not in GH4 or PC12 cells. The ability of a particular cell type to process prosomatostatin did not correlate with cellular storage capacity and was independent of the level of biosynthesis of the precursor. These data suggest that prosomatostatin processing requires specific pathways which are present in some neuroendocrine cells, but not in others.
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PMID:Cell-specific processing of preprosomatostatin in cultured neuroendocrine cells. 288 26

DNA sequences containing the 5' flanking region of the rat somatostatin gene were linked to the coding sequence of the bacterial chloramphenicol acetyl transferase gene. This recombinant plasmid is active in expressing CAT activity in the neuronally derived, somatostatin producing CA-77 cell line. Deletion analyses of the somatostatin promoter show that the sequences proximal to position -60, relative to the cap site are required for expression of this promoter. A 4 base pair deletion of residues -46 through -43 within the somatostatin promoter results in a down mutation in vivo suggesting the existence of an element critical for the expression of the promoter in CA-77 cells. In addition, the somatostatin recombinant and its 5' deletion constructs preferentially express CAT activity in CA-77 cells, whereas only basal level of expression is observed in HeLa, BSC40, and RIN-5F cell lines, pointing to the cell specific nature of this promoter.
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PMID:Identification of the promoter sequences involved in the cell specific expression of the rat somatostatin gene. 288 75

RIN-m cells, cultured from a rat insulinoma, not only bind and secrete but also degrade insulin (Diabetes 1982; 31:521-31). The insulin-degrading activity resides in the cytosol and is similar to the insulin-specific proteases previously described in muscle and other tissues. It has an apparent Km of 0.15 microM for porcine insulin in crude cell-free extracts, a competitive inhibition constant for proinsulin that is close to the Km, and a lower but measurable affinity for glucagon. The enzyme is inactive at pHs below 6.0, indicating that it is not lysosomal, is completely inhibited by N-ethylmaleimide, and exhibits apparent competitive inhibition constants (microM) for the following peptides: desoctapeptide insulin, 0.043; guinea pig insulin, 0.048; proinsulin, 0.64; insulin B-chain, 1.17; glucagon, 7.0; and cyclic somatostatin, 8.6. Highly active insulin-degrading activity was found using cell suspensions of 22 cloned and 8 subcloned cell lines derived from RIN-m as well as 11 other continuous cell lines derived from a variety of nonislet tissues of rat, mouse, and human origin. Homogenates of the original rat islet tumor and cytosol of normal rat islets also contained insulin-degrading activity. Although insulin protease is present in a variety of tissues, it may have an additional regulatory function in cells that are actively synthesizing, storing, and secreting insulin.
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PMID:Cytosolic insulin-degrading activity in islet-derived tumor cell lines and in normal rat islets. 298 50

The antiprotozoal drug pentamidine can be toxic to islet cells in vivo and in vitro. Rat islets were exposed to pentamidine (mesylate and isethionate salts) and six other structurally related diamidines. The beta-cell response to arginine + theophylline was suppressed by pentamidine (10(-2) mmol/l) while the glucagon and somatostatin secretions persisted. All diamidines tested suppressed the beta-cell function, with a log-dose-response proportionality, the mesylate compound being more potent than pentamidine isethionate, and the lipophilic analogs more than the hydrosoluble diamidines. Electron microscopy revealed distinct morphological alterations in islets exposed to pentamidine, the intensity of these changes being dose-and time-dependent, and the beta cells more severely damaged than the non-beta cells. 51Cr-labelled islet cells and RIN 5 F cells consistently appeared more sensitive to pentamidine cytotoxicity than rat fibroblasts, myeloma cells and hepatocytes. The pentamidine-induced suppression of beta-cell function was not, in conditions tested, affected by the presence of nicotinamide and the hexose concentration in the medium. The kinetics of islet damage were slower than those of streptozotocin and alloxan-induced islet damage. The present study confirms that pentamidine is selectively toxic to islet beta cells, with some features distinct from the alloxan and streptozotocin toxicities to these cells. The mechanism of this process and its precipitating factors in vivo need clarification.
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PMID:Functional and morphological modifications induced in rat islets by pentamidine and other diamidines in vitro. 389 20

Continuous cell lines that secrete both insulin and somatostatin were established by two cooperating groups of investiagtors from a serially transplantable, radiation-induced, rat islet cell tumor. The cell lines, named RIN-r and RIN-m, were initiated from tumors maintained in inbred rats or in athymic nude mice, respectively. The cultured cells are epithelioid, free of fibroblast contamination, and can be cloned. They have a hypodiploid chromosome number, are tumorigenic, and posses amine-handling properties, including high levels of L-dopa decarboxylase and formaldehyde-induced fluorescence. Preliminary analysis of clones revealed a spectrum of insulin secretion from undetectable to relatively high. These clonal cell lines provide important systems to study the biology of insulin and somatostatin.
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PMID:Continuous, clonal, insulin- and somatostatin-secreting cell lines established from a transplantable rat islet cell tumor. 610 92

A cell line, RIN-m, established from a transplantable rat islet cell tumor secretes insulin (IRI) and somatostatin (SRIF) and expresses high levels of the key amine precursor uptake and decarboxylation (APUD) cell enzyme L-dopa-decarboxylase (DDC). Conditioned medium from a rat pituitary tumor line GH3, secreting GH and PRL, improved the cloning efficiency of RIN-m cells 24-fold and enabled the isolation and establishment of a large number of primary and secondary clones. These clones were used to study clonal relationships between peptide hormone secretion and APUD features of an endocrine cell. All the primary and secondary clonal derivatives, irrespective of whether they secreted peptide hormones, maintained high levels of DDC activity. In contrast, IRI and SRIF secretion patterns of the primary clones were highly variable. Selective recloning of primary clones resulted in the isolation of subclones which produced either no hormones or high levels of either IRI or SRIF, but no clone that continuously secreted high levels of both IRI and SRIF. We conclude that: 1) the rat pituitary tumor line GH3 produces a factor(s), possibly GH and/or PRL, which dramatically affects the growth and cloning efficiency of rat islet tumor cells; 2) in contrast to the variability in hormone secretion patterns, DDC activity was consistently expressed in all clones and subclones; and 3) although wide fluctuation in hormone secretion levels occurred among the primary clones, subclones were obtained which revealed that IRI and SRIF can be expressed independently. The subclones of RIN-m developed should be useful for the analyses of factors influencing the synthesis, storage, and secretion of IRI and SRIF. The persistence of high DDC activity in the primary and secondary clones suggests that the APUD property of this endocrine cell may be a primitive differentiation feature closely related to the stem cell; in contrast, peptide hormone production may be associated with more terminal differentiation events.
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PMID:Clonal analysis of insulin and somatostatin secretion and L-dopa decarboxylase expression by a rat islet cell tumor. 612 63

Cells derived from rat islet tumor and grown in culture (parent cells-RIN-m) and two clones obtained from them were used to study the effect of various secretagogues on insulin, glucagon, and somatostatin secretion. Parent cells secreted all three hormones in various quantities, while clone 5F secreted predominantly insulin and clone 14B secreted predominantly somatostatin. The secretory behavior of these cells were compared to each other and to that of normal islets. In general, as in the case of normal islets, insulin secretion was stimulated by calcium, potassium, tolbutamide, theophylline, and glucagon. It was inhibited by somatostatin. Glucagon secretion was stimulated by calcium, arginine, and theophylline. Somatostatin secretion was stimulated in clone 14B by arginine, tolbutamide, theophylline, and insulin. These cells differ from normal islets, in that they do not respond to glucose or arginine with increased insulin secretion. Also somatostatin failed to inhibit glucagon secretion. The similarity in insulin secretory responses of parent cells and clone 5F suggests that local or paracrine islet hormone secretion plays only a negligible role in the control of other hormone secretion in these cells.
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PMID:Insulin, glucagon, and somatostatin secretion by cultured rat islet cell tumor and its clones. 614 66

Gastropancreatic neuroendocrine cells synthesize large amounts of gamma-aminobutyric acid (GABA). This amino acid neurotransmitter appears to be stored in and released from, vesicles similar to small synaptic vesicles. So far, the function of GABA in gastropancreatic, neuroendocrine cells has not been clarified. Previous work suggested that only pancreatic, glucagon-producing alpha 2 cells contain functional GABAA receptors. Using subunit-specific antibodies in sections of human antral mucosa, a human gastrinoma and rat pancreas, we show that expression of GABAA receptors is abundant in gastropancreatic, neuroendocrine cells. Using the patch-clamp technique in the whole-cell mode we demonstrate that both the rat insulinoma cell line RIN 38 and the amphicrine cell line AR42J express functional GABAA receptors, which are characterized by a relatively low benzodiazepine and Zn2+ sensitivity and by an insensitivity to the inverse benzodiazepine agonist 6,7-alpha-methoxy-4-ethyl-beta-carboline-3-carboxylate (DMCM). In contrast to neurons, activation of GABAA receptors leads to a membrane depolarization. This depolarization presumably activates voltage-gated Ca2+ channels, resulting in an increase in cytosolic Ca2+ concentration, [Ca2+]i, as shown with the fluorimetric dye fura-2. The combination of GABA release, GABAA receptor activation and the [Ca2+]i increase could constitute an autocrine mechanism, modulating the release of hormones such as gastrin, insulin and somatostatin.
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PMID:Expression of functional GABAA receptors in neuroendocrine gastropancreatic cells. 749 Dec 62

Transcription factor CREB regulates cyclic AMP (cAMP)-dependent gene expression by binding to and activating transcription from cAMP response elements (CREs) in the promoters of target genes. The transcriptional transactivation functions of CREB are activated by its phosphorylation by cAMP-dependent protein kinase A (PKA). In studies of many different phenotypically distinct cells, the CRE of the somatostatin gene promoter is a prototype of a highly cAMP-responsive element regulated by CREB. We now report on a somatostatin-producing rat insulinoma cell line, RIN-1027-B2, in which transcription from the somatostatin gene promoter is paradoxically repressed by CREB. We find that CREB fails to transactivate a CRE-containing somatostatin-chloramphenicol acetyltransferase reporter even when coexpressed with the catalytic subunit of PKA. CAAT box/enhancer-binding protein beta (C/EBP beta) and C/EBP-related activating transcription factor bind to the CRE in the promoter of the somatostatin gene and transactivate transcription. CREB binds competitively with C/EBP beta to the somatostatin CRE in vitro and represses C/EBP beta-induced transcription of the CRE-containing somatostatin-chloramphenicol acetyltransferase reporter. The lack of CREB-mediated transcriptional stimulation is due to the presence of a heat-stable inhibitor of PKA that prevents activation of PKA and subsequent CREB phosphorylation in the nucleus. These findings indicate that dephosphorylated CREB is a negative regulator of C/EBP-activated transcription of the somatostatin gene promoter in RIN-1027-B2 cells.
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PMID:Impaired cyclic AMP-dependent phosphorylation renders CREB a repressor of C/EBP-induced transcription of the somatostatin gene in an insulinoma cell line. 779 50

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