Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The use of primary beta-cells in biochemical and molecular research is limited by the availability of pancreatic endocrine tissue. Numerous investigators have attempted to establish an insulin-secreting cell line that retains normal regulation of insulin secretion. Different approaches have been used, including induction of pancreatic tumors by irradiation or viral infection, immortalization of beta-cells in vitro, and development of transgenic mice with targeted expression of a recombinant oncogene in the beta-cell. Few of these attempts have proven successful, because cell differentiation and proliferation capacities are mutually exclusive. The most widely used insulin-secreting cell lines are RIN, HIT, beta TC, MIN6 and INS-1 cells. These cells contain mainly insulin and small amounts of glucagon and somatostatin. RIN cells, except for the subclone RIN-38, are not glucose-responsive. HIT cells and beta TC cells secrete insulin in response to glucose, but their dose-response curve is markedly shifted to the left MIN6, INS-1 and a newly available subclone of beta TC cells (beta TC-6 F7) are reported to retain normal regulation of glucose-induced insulin secretion. Although the behaviour of none of these cell lines perfectly mimics primary beta-cell physiology, they are extremely valuable tools for the study of molecular events underlying beta-cell function and dysfunction. In addition, insulin-secreting cell lines represent a potential source of transplantable tissue to overcome the limited availability of primary islets for this procedure.
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PMID:Insulin-secreting cell lines: classification, characteristics and potential applications. 869 99

To investigate the factors involved in the post-translational processing of proglucagon, we have examined the proglucagon-derived peptides (PGDPs) expressed in normal mouse pancreas and intestine, as well as in both islet (InR1-G9, RIN 1056A) and intestinal (STC-1) cell lines. N-terminal proglucagon processing was similar to that of normal mouse pancreas in InR1-G9 cells, but differed in RIN 1056A and STC-1 cells, which contained significant amounts of glucagon as well as the intestinal PGDPs, glicentin and oxyntomodulin. The C-terminal end of proglucagon was processed to small amounts of glucagon-like peptide-1 in InR1-G9 and RIN 1056A cells, as in normal pancreas, while processing was more extensive in both STC-1 cells and normal intestine. Northern blot analysis of mRNA transcripts for the prohormone convertases, PC1 and PC2, in the 3 cell lines demonstrated correlations between PC2 and the presence of glucagon, as well as between PC1 and production of the intestinal PGDPs. These findings provide support for the suggestion that PC1 and PC2 play roles in the tissue-specific post-translational processing of proglucagon.
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PMID:Proglucagon processing in islet and intestinal cell lines. 873 79

The beta cell-specific glucose-sensitive factor (GSF), which binds the A3 motif of the rat I and human insulin promoters, is modulated by extracellular glucose. A single mutation in the GSF binding site of the human insulin promoter abolishes the stimulation by high glucose only in normal islets, supporting the suggested physiological role of GSF in the glucose-regulated expression of the insulin gene. GSF binding activity was observed in all insulin-producing cells. We have therefore purified this activity from the rat insulinoma RIN and found that a single polypeptide of 45 kDa was responsible for DNA binding. Its amino acid sequence, determined by microsequencing, provided direct evidence that GSF corresponds to insulin promoter factor 1 (IPF-1; also known as PDX-1) and that, in addition to its essential roles in development and differentiation of pancreatic islets and in beta cell-specific gene expression, it functions as mediator of the glucose effect on insulin gene transcription in differentiated beta cells. The human cDNA coding for GSF/IPF-1 has been cloned, its cell and tissue distribution is described. Its expression in the glucagon-producing cell line alpha TC1 transactivates the wild-type human insulin promoter more efficiently than the mutated construct. It is demonstrated that high levels of ectopic GSF/IPF-1 inhibit the expression of the human insulin gene in normal islets, but not in transformed beta TC1 cells. These results suggest the existence of a control mechanism, such as requirement for a coactivator of GSF/IPF-1, which may be present in limiting amounts in normal as opposed to transformed beta cells.
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PMID:Purification of the beta-cell glucose-sensitive factor that transactivates the insulin gene differentially in normal and transformed islet cells. 898 63

Oxytocin (OT) and vasopressin (AVP) stimulate insulin and glucagon release from the pancreas, and evoke insulin secretion from the rat insulinoma cell line, RINm5F. To determine which AVP/OT receptor subtype is expressed in RINm5F cells, we used PCR with degenerate primers to two transmembrane domains of the AVP (V1a, V1b (or V3), V2) and OT receptors (OTRs). The single PCR fragment identified was used to obtain a full length cDNA from a RINm5F cDNA library. Comparison of the deduced amino acid sequence of this clone with uterine OTR sequences from several species (human, sheep, bovine) and to the pig kidney epithelial cell (LLC-PK1) OTR reveals a very high degree of homology. After the RIN cell OTR cDNA was stably transfected into CHO cells (CHO-OTR), the cell membranes bound iodinated oxytocin antagonist with an apparent Kd comparable to that of RIN cell membranes and those from other OT target cells. Comparison of the ligand specificities of CHO-OTR and RIN cells membranes showed that the relative Ki values of a series of OT analogues were approximately equivalent in both preparations. The rank order of apparent Ki values also corresponded to published values for the rat myometrium, where OT elicits intracellular calcium transients, and increases inositol phosphate production. In uterin endometrium and amnion cells, OT stimulates prostaglandin release. Stimulation of CHO-OTR cells with OT caused an increase in cytosolic calcium concentration originating from both intracellular and extracellular sources, and a dose-dependent increase in inositol phosphate levels. Arachidonic acid release and PGE2 synthesis were also stimulated by OT. These findings (amino acid sequence homology, binding specificity, and signal transduction/second messenger production) suggest that OTRs from RINm5F cells are indistinguishable from OTRs that have been described in other tissues. The expression of OTR in pancreatic cells implies that OT plays a role in pancreatic function.
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PMID:Molecular cloning and functional characterization of the oxytocin receptor from a rat pancreatic cell line (RINm5F). 900 55

Events controlling differentiation to insulin-secreting beta-cells in the pancreas are not well understood, although beta-cells are thought to arise from pluripotent ductal precursor cells. To search for signaling proteins that might be involved in beta-cell maturation, we analyzed protein kinase expression in two developmentally and functionally distinct pancreatic beta-cell lines, RIN-5AH and RIN-A12, by reverse transcriptase polymerase chain reaction. A number of tyrosine and serine/threonine kinases were identified in both lines. One protein kinase, mixed lineage kinase-1 (MLK-1), was expressed at both the RNA and protein levels in RIN-5AH cells, which display an immature beta-cell phenotype, but was not detected in the more mature RIN-A12 cells. Furthermore, levels of MLK-1 mRNA and protein were increased after brief stimulation of RIN-5AH cells with either the differentiation inducer, sodium butyrate, or with serum after serum starvation. These increases in expression were independent of phenotypic markers such as insulin secretion or surface expression of major histocompatibility class I- and A2B5-reactive ganglioside. In addition, increases in MLK-1 expression in the stimulated RIN-5AH cells were accompanied by phosphorylation of MLK-1 on serine but not tyrosine. Antisense oligonucleotides to two distinct regions of MLK-1 caused RIN-5AH cells, but not RIN-A12 cells, to adopt a highly undifferentiated morphology, with a reduction in DNA synthesis and MLK-1 protein levels and elevated glucagon mRNA levels, but with no effect on insulin mRNA. In an immunohistochemical survey of embryonic mouse tissues, we found that temporal expression of MLK-1 was regulated in a tissue-specific manner. In the embryonic pancreas, MLK-1 expression was evident in ductal cells from day 13 to 16 but was not detected in late stage gestation or neonatal pancreas. These data suggest that MLK-1 is regulated in immature pancreatic beta-cells and their ductal precursors at the level of functional maturity and may therefore play a role in beta-cell development.
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PMID:Expression of mixed lineage kinase-1 in pancreatic beta-cell lines at different stages of maturation and during embryonic pancreas development. 919 43

This study concerns whether the pancreatic beta cell expresses cell-surface ectopeptidases that are capable of proteolysis of peptide hormones and neuropeptides that modify glucose-dependent insulin release. These biochemical investigations of the RINm5F cell line found that these cells express ectopeptidases. We have characterized the limited endoproteolysis of GLP-1 (7-36) amide that occurs in the presence of RINm5F plasma membranes. The products and the sensitivity to specific peptidase inhibitors of the proteolysis is characteristic of neutral endopeptidase (NEP) 24.11. Vasoactive intestinal polypeptide (VIP), pituitary adenylate cyclase-activating peptide (PACAP), amylin, glucagon, glucose-dependent insulinotropic polypeptide (GIP), and exendin-4 also undergo proteolysis in the presence of RIN cell membranes. NEP 24.11-activity in RIN cell membranes was confirmed using a specific fluorogenic assay, by histochemistry, and by comparison with the recombinant enzyme with respect to the kinetics of proteolysis of GLP-1 (7-36) amide and of a fluorogenic substrate. Specific fluorogenic assays revealed the presence of aminopeptidase N and the absence of aminopeptidase A and of dipeptidylpeptidase IV.
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PMID:Endoproteolysis of glucagon-like peptide (GLP)-1 (7-36) amide by ectopeptidases in RINm5F cells. 921 54

Glucagon-like peptide-1 (GLP-1), secreted from intestine in response to food intake, enhances insulin secretion from pancreatic beta-cells. In this study, we evaluated the effects of stably transfecting the GLP-1 receptor into an insulinoma cell line, RIN 1046-38, on basal and glucose-mediated insulin secretion and on second messenger pathways involved in insulin secretion. The GLP-1 receptor transfected cells had similar insulin mRNA levels but higher insulin content compared with parental cells. In GLP-1 receptor transfected cells, glucose (0.5 mM)-mediated insulin release was increased compared with parental cells (4.52 +/- 0.79 pmol insulin/l per mg protein x h vs. 2.21 +/- 0.36 pmol insulin/l per mg protein x h; mean +/- S.E., n = 6, P = 0.015, in transfected vs. parental cells, respectively). By hemolytic plaque assay measuring single cell insulin secretion, we observed that in the GLP-1 receptor transfected cells versus parental cells the increased insulin secretion was due to the presence of more glucose-responsive cells as well as more insulin released in response to glucose per cell. Resting intracellular cAMP was higher in the GLP-1 transfected cells (35.96 +/- 3.88 vs. 18.6 +/- 2.01 nmol/l per mg protein x h; mean +/- S.E., n = 4, P = 0.039, in transfected vs. parental cells, respectively). In response to GLP-1, both GLP-1 receptor transfected cells and parental cells showed increased cAMP levels independent of glucose. Resting intracellular calcium was the same in both parental and GLP-1 receptor transfected cells. However, more cells were responsive to glucose in the GLP-1 receptor transfected cells and the calcium transients attained in the presence of glucose developed at a faster rate and reached a higher amplitude than in parental cells. We conclude that having an excess of GLP-1 receptors renders beta-cells more sensitive to glucose.
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PMID:Overexpression of glucagon-like peptide-1 receptor in an insulin-secreting cell line enhances glucose responsiveness. 922 27

We investigated the possibility that tyrosine phosphorylation might play a role in insulin secretion in the insulinoma cell line, RIN 1046-38 cells. At least 4 proteins of 18, 25, 35, and 46 kDa size were found to be tyrosine phosphorylated in the presence of glucose and an insulin secretagogue, glucagon-like peptide-1 (GLP-1). The addition of glucose and GLP-1 to cells that were exposed to the tyrosine kinase inhibitor genistein resulted in a decrease in the extent of phosphorylation of the 18, 25, and 35 kDa proteins and a concomitant reduction in insulin secretion, whereas treatment with vanadate, a tyrosine phosphatase inhibitor, led to enhanced responses. Immunoprecipitation of cellular proteins with an anti-phosphotyrosine antibody followed by immunoblotting with a specific monoclonal antibody to SNAP-25 (synaptosome-associated protein of 25 kDa) revealed that the 25 kDa protein is SNAP-25. These results suggest that tyrosine phosphorylation of SNAP-25 may be involved in the regulation of insulin secretion in RIN 1046-38 cells.
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PMID:SNAP-25 is phosphorylated by glucose and GLP-1 in RIN 1046-38 cells. 929 98

Neuropeptide Y (NPY) has been shown to inhibit insulin secretion from the islets of Langerhans. We show that insulin secretion in the insulinoma cell line RIN 5AH is inhibited by NPY. 125I-Peptide YY (PYY) saturation and competition-binding studies using NPY fragments and analogues on membranes prepared from this cell line show the presence of a single class of NPY receptor with a Y1 receptor subtype-like profile. Inhibition of insulin secretion in this cell line by NPY fragments and analogues also shows a Y1 receptor-like profile. Both receptor binding and inhibition of insulin secretion showed the same orders of potency with NPY > [Pro34]-NPY > NPY 3-36 >> NPY 13-36. The Y1 receptor antagonist, BIBP 3226, blocks NPY inhibition of insulin secretion from, and inhibits 125I-PYY binding to, RIN 5AH cells. Northern blot analysis using a Y1-receptor specific probe shows that NPY Y1 receptors are expressed by RIN 5AH cells. Y5 receptors are not expressed in this cell line. Neuropeptide Y inhibition of insulin secretion is blocked by incubation with pertussis toxin, implying that the effect is via a G-protein (Gi or Go) coupled receptor. Neuropeptide Y inhibits the activation of adenylyl cyclase by isoprenaline in RIN 5AH cell lysates, and the stimulation of cAMP by glucagon-like peptide-1 (7-36) amide (GLP-1). It also blocks insulin secretion stimulated by GLP-1, but not by dibutyryl cyclic AMP. Hence, we suggest that NPY inhibits insulin secretion from RIN 5AH cells via a Y1 receptor linked through Gi to the inhibition of adenylyl cyclase.
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PMID:Inhibition of glucose stimulated insulin secretion by neuropeptide Y is mediated via the Y1 receptor and inhibition of adenylyl cyclase in RIN 5AH rat insulinoma cells. 986 16

Chinese hamster ovary (CHO) cells stably expressing the human insulin receptor and the rat glucagon-like peptide-1 (GLP-1) receptor (CHO/GLPR) were used to study the functional coupling of the GLP-1 receptor with G proteins and to examine the regulation of the mitogen-activated protein (MAP) kinase signaling pathway by GLP-1. We showed that ligand activation of GLP-1 receptor led to increased incorporation of GTP-azidoanilide into Gs alpha, Gq/11 alpha, and Gi1,2 alpha, but not Gi3 alpha. GLP-1 increased p38 MAP kinase activity 2.5- and 2.0-fold over the basal level in both CHO/GLPR cells and rat insulinoma cells (RIN 1046-38), respectively. Moreover, GLP-1 induced phosphorylation of the immediate upstream kinases of p38, MKK3/MKK6, in CHO/GLPR and RIN 1046-38 cells. Ligand-stimulated GLP-1 receptor produced 1.45- and 2.7-fold increases in tyrosine phosphorylation of 42-kDa extracellular signal-regulated kinase (ERK) in CHO/GLPR and RIN 1046-38 cells, respectively. In CHO/GLPR cells, these effects of GLP-1 on the ERK and p38 MAP kinase pathways were inhibited by pretreatment with cholera toxin (CTX), but not with pertussis toxin. The combination of insulin and GLP-1 resulted in an additive response (1.6-fold over insulin alone) that was attenuated by CTX. In contrast, the ability of insulin alone to activate these pathways was insensitive to either toxin. Our study indicates a direct coupling between the GLP-1 receptor and several G proteins, and that CTX-sensitive proteins are required for GLP-1-mediated activation of MAP kinases.
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PMID:Pancreatic glucagon-like peptide-1 receptor couples to multiple G proteins and activates mitogen-activated protein kinase pathways in Chinese hamster ovary cells. 1006 36


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