Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Previous studies have shown that certain peptides of the secretin-glucagon family stimulate tyrosine hydroxylase activity in sympathetic neurons of the superior cervical ganglion and three of its end organs, i.e., the iris, pineal gland, and submaxillary gland. To determine whether a similar regulation occurs in other sympathetic neurons, the effects of two of these peptides, secretin and vasoactive intestinal peptide, were examined in the right cardiac ventricle of the rat, a tissue innervated primarily by the middle and inferior cervical ganglia. Both peptides stimulated tyrosine hydroxylase activity, measured in situ, in this tissue. In addition, several second messenger systems were investigated as possible mediators of this peptidergic stimulation of tyrosine hydroxylase activity in autonomic end organs. 8-Bromoadenosine 3',5'-cyclic monophosphate and forskolin elevated tyrosine hydroxylase activity in slices of both the right ventricle and the submaxillary gland. 8-Bromoguanosine 3',5'-cyclic monophosphate also stimulated tyrosine hydroxylase activity in both tissues, whereas nitroprusside stimulated activity only in the submaxillary slices. Furthermore, the phosphodiesterase inhibitors 3-isobutyl-1-methylxanthine and/or Ro 20-1724 potentiated the stimulation by secretin, as well as the stimulations by forskolin and nitroprusside. Phorbol 12,13-dibutyrate also stimulated tyrosine hydroxylase activity in cardiac and submaxillary slices; however, no potentiation of these effects was seen following addition of either phosphodiesterase inhibitor. These data, taken together with those of previous studies, suggest a role for a cyclic nucleotide, probably adenosine 3',5'-cyclic monophosphate, in the peptidergic stimulation of tyrosine hydroxylase activity in sympathetic nerve terminals.
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PMID:Effects of peptides of the secretin-glucagon family and cyclic nucleotides on tyrosine hydroxylase activity in sympathetic nerve endings. 170 18

We found that glucagon stimulated membrane protein kinase C (PKC) activity and phosphatidylcholine hydrolysis in 24 h-cultured rat hepatocytes. Phorbol myristate acetate, 8-bromo cyclic AMP, vasopressin, noradrenaline and the Ca2+ ionophore A23187 also stimulated membrane PKC activity. However, only vasopressin and noradrenaline stimulated inositol phosphate accumulation, whereas all agonists stimulated the rate of release of water-soluble choline metabolites into the medium. Choline, and to a much lesser extent phosphocholine, were released, suggesting predominantly phospholipase D activation. This was supported by the finding that the accumulation of phosphatidate and diacylglycerol was enhanced by the agents in [3H]myristate-labelled hepatocytes, as was [32P]phosphatidylethanol formation. Since the time courses for the release of choline into the medium and the accumulation of phosphatidate and diacylglycerol caused by vasopressin and glucagon were similar, the more rapid activation of PKC by vasopressin probably reflects diacylglycerol formation from phosphoinositide breakdown. The inability of glucagon to stimulate inositol phosphate production was not due to the prolonged culture, since similar results were obtained in 4 h cultures. We conclude that the stimulation of membrane PKC activity by glucagon correlates with accumulation of diacylglycerol and phosphatidate derived from the hydrolysis of phosphatidylcholine.
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PMID:Activation of membrane protein kinase C by glucagon and Ca(2+)-mobilizing hormones in cultured rat hepatocytes. Role of phosphatidylinositol and phosphatidylcholine hydrolysis. 185 65

Endocrine tumors of the pancreas may produce characteristic syndromes attributable to the increased secretion of one or more hormones. These tumors provide valuable opportunities for the analysis of hormone biosynthesis and secretion in the neoplastic human endocrine cell. The authors studied a pancreatic endocrine tumor obtained from a patient with classical glucagonoma syndrome. Characterization of plasma and tumor glucagon-like immunoreactivity (GLI) by high-performance liquid chromatography and radioimmunoassay for GLI showed different chromatographic profiles, with glucagon the major molecular form in the tumor, and glicentin and oxyntomodulin predominating in plasma. Although immunocytochemical staining of the tumor showed only focal weak positivity for glucagon, tumor extracts contained large amounts of immunoreactive GLI peptide. Northern blot analysis of tumor RNA demonstrated that abundant glucagon mRNA transcripts were present, just slightly larger in size than those detected in normal pancreas and intestine. Electron microscopic analysis of the tumor cellular ultrastructure revealed only occasional small electron dense secretory granules. A large number of complex lysosome-like structures of variable size and electron density were detected throughout the cytoplasm and ringing the nucleus of most cells, a feature atypical of endocrine tumors of the pancreas. Primary cultures of dispersed tumor cells were established and, in contrast to previous results, were obtained using normal or neoplastic islet cell models, GLI secretion was found to be stimulated eightfold by incubation with 5 mM dibutyryl cyclic adenosine monophosphate. Phorbol myristate acetate, the calcium ionophore A23187, and sodium butyrate had no effect on GLI secretion in vitro. These observations indicate that neoplastic human A cells may have abnormalities at different points in the biosynthesis and secretion of glucagon.
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PMID:Molecular and cellular analysis of a neoplastic pancreatic A cell tumor. 196 26

Phorbol myristate acetate (PMA) inhibits glucagon-stimulated cyclic AMP accumulation and shifts to the right the dose-response curve to glucagon for ureagenesis. In cells from hypothyroid rats the effect of PMA on glucagon-stimulated ureagenesis was much more pronounced, but its effect on cyclic AMP accumulation was similar to that observed in the control cells. The stimulations of ureagenesis by the glucagon analogue THG and dibutyryl cyclic AMP (But2-cAMP) were also diminished by PMA, to a greater extent in cells from hypothyroid rats than in those from euthyroid rats. PMA inhibited the increases in cytoplasmic [Ca2+] induced by glucagon. THG or But2-cAMP; the effect of PMA was much more marked in cells from hypothyroid rats than in the controls. Treatment of the cells with glucagon or THG increased the production of citrulline by subsequently isolated mitochondria, whereas PMA diminished their effects. The results suggest that PMA alters glucagon actions at least at two levels; (i) cyclic AMP production and (ii) elevation of cytosol calcium. The increased sensitivity to PMA of some glucagon effects in hypothyroid rats seems to be related to the latter action.
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PMID:Modulation of glucagon actions by phorbol myristate acetate in isolated hepatocytes. Effect of hypothyroidism. 216 91

Expression of the gene encoding preproglucagon gives rise to different glucagon-related peptides in the pancreas and intestine. Glucagon gene expression is regulated by a protein kinase C-dependent pathway in rat islet cell lines, whereas activation of the adenylate cyclase pathway in islet cell lines is without effect. To elucidate the factors important for the control of proglucagon biosynthesis in the intestine, we have studied proglucagon gene expression and proglucagon biosynthesis in rat intestine. Analysis of intestinal cDNA clones encoding preproglucagon indicated that pancreatic and intestinal glucagon mRNA transcripts were identical. The regulation of proglucagon gene expression in rat intestine differed markedly from that previously observed in islet cell lines. Phorbol esters increased the secretion of glucagon-like immunoreactive peptides (GLI) but had no effect on proglucagon mRNA levels in rat intestinal cells. Bombesin also increased the secretion of GLI without affecting proglucagon mRNA levels or biosynthesis. In contrast, dibutyryl cyclic AMP, forskolin, and cholera toxin increased both proglucagon mRNA levels and GLI biosynthesis and secretion, suggesting that proglucagon gene expression in the intestine is regulated by a cyclic AMP-dependent pathway. These observations suggest that tissue-specific differences in both the regulation of proglucagon gene expression and the posttranslational processing of proglucagon contribute to the diversity of glucagon gene expression.
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PMID:Proglucagon gene expression is regulated by a cyclic AMP-dependent pathway in rat intestine. 254 59

Catecholamines can induce rat hepatic zinc thionein to high levels via alpha 1- and beta 2-adrenoceptors. Polypeptide hormones (glucagon and angiotensin II) are also inducers, but only to the moderate levels attained by glucocorticoids (dexamethasone). Turpentine induced inflammation stimulates the synthesis of ZnMT, but this process is not mediated by catecholamines. Phorbol esters, which are tumor promoters, can stimulate protein kinase C. Angiotensin II and alpha 1-agonists activate protein kinase C via diacylglycerol release from phosphatidylinositol-4,5-diphosphate. Phorbol esters can also stimulate the synthesis of rat hepatic zinc thionein, implicating protein kinase C activation in this induction. The multihormonal modulation of metallothionein gene activation has become increasingly more complex.
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PMID:The involvement of catecholamines and polypeptide hormones in the multihormonal modulation of rat hepatic zinc thionein levels. 282 66

In adrenalectomized rats, the tumor-promoting phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA) markedly enhanced the inductions of tyrosine aminotransferase (TAT) and ornithine decarboxylase by glucocorticoids, even with sufficient concentration of glucocorticoids to have a maximal effect, whereas it had no effect on TAT activity and increased ornithine decarboxylase activity only slightly in the absence of glucocorticoids. Phorbol derivatives and components of TPA such as 4 beta-phorbol, phorbol 12-tetradecanoate, phorbol 13-acetate, and 4-O-methylphorbol 12-tetradecanoate 13-acetate, which have no tumor-promoting activity or ability to activate protein kinase C, did not have any effect on TAT induction by glucocorticoid. TPA enhanced the induction of TAT by various glucocorticoids but had no effect on induction of TAT by glucagon or insulin and did not enhance the induction of glucose-6-phosphate dehydrogenase by 17 beta-estradiol. These results suggest that TPA specifically enhances the induction of TAT and ornithine decarboxylase by glucocorticoids. Similar effects of TPA on TAT induction by glucocorticoid were observed in primary cultures of adult rat hepatocytes. Another activator of protein kinase C, rac-1,2-dioctanoylglycerol, was also found to have similar effects on the cells.
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PMID:Tumor-promoting phorbol ester amplifies the inductions of tyrosine aminotransferase and ornithine decarboxylase by glucocorticoid. 288 1

The cell line In-R1-G9 is one of the clones from the hamster insulinoma cell line, In-111-R1, and it produces glucagon. Phorbol esters markedly enhanced glucagon secretion and the stimulatory effect was found to be correlated to their biological activity as tumor promoters. At a concentration of 200 nM, 12-O-tetradecanoylphorbol 13-acetate (TPA) stimulated glucagon secretion 13-fold more than the control in 10 min. The effect of TPA was not influenced by actinomycin D, cycloheximide, colchicine or vincristine. Depletion of calcium from the incubation medium inhibited TPA-induced glucagon secretion by approximately 50% and dibucaine also suppressed glucagon secretion to 67.4%. An addition of A23187 to TPA induced 150% enhancement over the TPA-stimulated glucagon level, and the maximum secretory response was observed when the cells were stimulated with the simultaneous addition of TPA, A23187 and theophylline.
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PMID:Effect of phorbol esters on glucagon secretion from a glucagon-secreting clonal cell line. Synergistic effects of A23187 and theophylline. 301 54

To evaluate a possible modulation by protein kinase C of hormonal, cAMP-mediated effects on renal epithelial cells, we studied the effect of protein kinase C activators and of bradykinin on intracellular cAMP accumulation in MDCK cells. A 15-min pretreatment of cells with phorbol 12-myristate 13-acetate or 1-oleoyl-2-acetylglycerol induced a dose-dependent inhibition of vasopressin-stimulated cAMP synthesis, but not of basal or glucagon-, prostaglandin E2-, and forskolin-stimulated cAMP generation. 4 alpha-Phorbol 12,13-didecanoate, inactive on protein kinase C, did not affect cAMP accumulation. Bradykinin (0.1-10 microM) also inhibited the stimulatory effect of vasopressin on cAMP synthesis in a concentration-dependent manner, but affected neither basal cAMP content, nor its stimulation by glucagon, prostaglandin E2 and forskolin. The effect of activators of protein kinase C and of bradykinin occurred while renal prostaglandin synthesis was blocked with indomethacin. The inhibitory effect of protein kinase C activators and bradykinin on cAMP generation was reversed by the protein kinase C inhibitor H7, was enhanced by monensin, one effect of which is to block the recycling of membrane receptors, and persisted when the GTP-binding protein N1 was blocked with 1 mM Mn2+. Our data suggest that: protein kinase C can modulate the tubular effects of vasopressin by inhibiting cAMP generation; this effect is not mediated by renal prostaglandins, and might result from a direct action on the vasopressin receptor, or on its coupling with Ns; the modulation by bradykinin of vasopressin effects are likely to be exerted, at least partly, through activation of protein kinase C.
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PMID:Protein kinase C activators and bradykinin selectively inhibit vasopressin-stimulated cAMP synthesis in MDCK cells. 303 98

Expression of the gene encoding glucagon was studied using a BK virus-induced glucagon-producing hamster islet cell line, InR1-G9 cells. Southern blot analysis of InR1-G9 DNA demonstrated that glucagon gene sequences are not amplified, yet appear to be hypomethylated compared to hamster liver or kidney DNA. Northern blot analysis of RNA from InR1-G9 cells detected a single glucagon mRNA species of 1300 basepairs. Phorbol esters and sodium butyrate, agents that increase glucagon gene transcription in RIN1056A cells, have no effect on glucagon mRNA levels in InR1-G9 cells. Posttranslational processing of proglucagon, as analyzed by gel filtration chromatography and RIA, resulted in the liberation of glucagon, glucagon-like peptide I, and glucagon-like peptide II, partially mimicking the processing of proglucagon in pancreas and intestine, yet differing from that previously observed in RIN1056A cells. Secretion of glucagon and the glucagon-like peptides was stimulated 3-fold after 1-h incubations with phorbol esters. These observations suggest that the determinants of glucagon gene expression and the posttranslational processing of proglucagon are highly cell specific and provide a new model for the study of proglucagon biosynthesis.
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PMID:Proglucagon gene expression and posttranslational processing in a hamster islet cell line. 341 18


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