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 effect of the somatostatin analog octreotide on cAMP-mediated calcitonin (CT) secretion and cAMP accumulation in C-cells was investigated. Glucagon stimulated cAMP accumulation and CT secretion with a maximal effect at a concentration of 10(-6) M. The cAMP antagonist RpcAMPs blocked the glucagon-induced CT secretion down to control levels. Therefore, no other second messengers seem to be involved in glucagon-stimulated CT secretion. Octreotide in increasing doses (10(-9) to 10(-6) M) inhibited cAMP accumulation and CT secretion with a maximal effect at a concentration of 10(-7) (40% and 29% of control values, respectively). Pretreatment of the cells with 100 ng/mL pertussis toxin for 24 hours abolished the inhibitory effect of octreotide on cAMP accumulation and CT secretion (82% and 58% of control values, respectively). Similar results were obtained under the influence of the phosphodiesterase inhibitor IBMX. Therefore, we conclude that somatostatin modulates adenylate cyclase-coupled CT secretion in C-cells via a pertussis toxin-sensitive G-protein possibly in an autocrine/paracrine way.
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PMID:Somatostatin acts via a pertussis toxin-sensitive mechanism on calcitonin secretion in C-cells. 136 26

Transgenic mice with elevated levels of beta-cell calmodulin develop severe diabetes even though pancreatic beta-cells contain reserve levels of insulin. Electron microscopic examination of transgenic pancreas confirmed the presence of abundant insulin secretory granules and failed to reveal obvious morphological abnormalities. These observations suggested that excess calmodulin may specifically impair the secretory process. To directly assess the effect of excess calmodulin on beta-cell function we have isolated pancreatic islets from transgenic animals. Transgenic islets from 6- to 8-day-old mice used 40% less glucose than normal islets and contained 58% of the normal insulin content, 90% of the normal glucagon content, and 5-fold higher levels of calmodulin than islets from control mice of the same age. Parallel perifusions of normal and transgenic islets confirmed that excess calmodulin inhibited glucose-stimulated insulin secretion; first phase secretion was reduced by 60%, and second phase secretion was essentially absent. Static assays were performed to assess the response to other secretagogues. All fuel secretagogues tested were ineffective in stimulating insulin secretion from transgenic islets. Secretion in response to depolarizing levels of potassium was also severely impaired. The phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine increased transgenic secretion, but not to the level obtained in normal islets. Of the compounds examined, only phorbol 12-myristate 13-acetate and carbachol, two substances thought to act in beta-cells by stimulation of protein kinase-C, produced equivalent secretion in normal and transgenic islets. Phorbol 12-myristate 13-acetate also appeared to restore second phase secretion in transgenic islets. These results indicate that the initial period of calmodulin-induced diabetes is due to a secretory defect. This defect appears to be distal to membrane depolarization and is selective for the second phase of insulin secretion.
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PMID:Elevated beta-cell calmodulin produces a unique insulin secretory defect in transgenic mice. 137 47

Vasoactive intestinal peptide (VIP) stimulated cyclic AMP production in rat peritoneal macrophages. The stimulatory effect of VIP was dependent on time, temperature and cell concentration, and was potentiated by the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX). At 15 degrees C, the response occurred in the 0.1-1000 nM range of VIP concentrations. Half maximal stimulation of cellular cyclic AMP (ED50) was obtained at 1.2 +/- 0.5 nM VIP, and maximal stimulation (about 3-fold basal level) was obtained between 100-1000 nM. The cyclic AMP system of rat peritoneal macrophages showed a high specificity for VIP. The order of potency observed in inducing cyclic AMP production was VIP greater than rGRF greater than hGRF greater than PHI greater than secretin. Glucagon, insulin, pancreastatin and octapeptide of cholecystokinin did not modify cyclic AMP levels at concentrations as high as 1 microM. The beta-adrenergic agonist isoproterenol increased the cyclic AMP production and show additive effect with VIP. Somatostatin inhibits the accumulation of cyclic AMP in the presence of both vasoactive intestinal peptide and isoproterenol. The finding of a VIP-stimulated cyclic AMP system in rat peritoneal macrophages, together with the previous characterization of high-affinity receptors for VIP in the same cell preparation, strongly suggest that VIP may be involved in the regulation of macrophage function.
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PMID:Stimulatory effect of vasoactive intestinal peptide (VIP) on cyclic AMP production in rat peritoneal macrophages. 137 99

The neuropeptide hormone galanin, released by sympathetic stimulation of nerve terminals in the endocrine pancreas, inhibits insulin secretion via a receptor-linked pertussis toxin-sensitive (Gi) transmembrane signaling pathway. Glucagon-like peptide-I(7-37) [GLP-I(7-37)] is an intestinal hormone shown to have potent insulin-releasing activities in pancreatic B-cells and is believed to serve a physiological role in the augmentation of nutrient-induced insulin release. GLP-I(7-37) binds to specific Gs- and adenylate cyclase-coupled receptors on pancreatic B-cells and directly stimulates proinsulin gene transcription, thereby increasing cellular levels of proinsulin messenger RNA (mRNA) and proinsulin biosynthesis. This study examines the effects of galanin on GLP-I(7-37)-stimulated proinsulin gene expression in mouse beta TC1 cells. The degree of proinsulin gene transcription was assessed by measuring the activity of chloramphenicol acetyl transferase (CAT) expressed from a CAT reporter plasmid linked to the rat insulin-1 gene promoter transferred to beta TC1 cells and by measuring proinsulin mRNA levels by Northern blot analysis. Galanin inhibited both CAT activity and the rise in proinsulin mRNA levels stimulated by either GLP-I(7-37) or forskolin (0.1 microM). Notably, galanin was without effect on CAT activity induced by the cAMP analog, 8-bromo-cAMP, the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine, or higher concentrations of forskolin. The inhibitory effects of galanin on GLP-I(7-37) and forskolin-induced CAT activity were reversed by the addition of pertussis toxin, a toxin that inactivates inhibitory G-proteins (Gi). We conclude that galanin inhibits GLP-I(7-37)-stimulated proinsulin gene expression by inhibiting the activation of adenylate cyclase by GLP-I(7-37) and subsequently the production of cAMP in B-cells. Further, our data suggest that these actions of galanin are mediated by a pertussis toxin sensitive pathway involving one or more Gis that inhibit adenylate cyclase. Thus, in addition to its well known inhibitory effects on insulin secretion galanin can inhibit proinsulin gene expression stimulated by GLP-I(7-37) activation of the cAMP signaling pathway. These findings may be a unique demonstration of the inhibition of proinsulin gene expression by a substance (galanin) released endogenously within the pancreas.
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PMID:Galanin inhibits proinsulin gene expression stimulated by the insulinotropic hormone glucagon-like peptide-I(7-37) in mouse insulinoma beta TC-1 cells. 137 16

The involvement of cAMP- and calcium-dependent pathways on the inhibitory effect of CsA (0.5 micrograms/ml) on insulin and glucagon release was studied in collagenase-isolated islets. CsA suppressed by 50% the release of insulin in pertussis toxin treated islets stimulated by 20 mM D-glucose. CsA blocked glucagon and insulin release induced by 0.2 mM IBMX (80% and 50% respectively). Similarly it inhibited glucagon and insulin release induced by 1 microM A23187 (53% and 40% respectively). CsA also abolished 0.1 microM glucagon-induced insulin release and 10 ng/ml VIP-induced glucagon release (70% and 38% respectively). The glucagon response to 2 mM D-glucose and to 10 mM arginine was decreased 25% and 45% respectively by CsA. The inhibitory effect of 0.1 microM somatostatin on insulin release was significantly abolished by CsA (p less than 0.001 vs control). On the other hand 1 microM forskolin induced insulin and glucagon release was not modified by CsA. Rats treated with CsA (10 mg/kg body wt) during 10 days showed hyperglycaemia, hypoglucagonemia and higher contents of pancreatic glucagon. It is concluded that CsA affects alpha- and beta-cell function, in vivo and in vitro, acting through calcium and cAMP-dependent pathways. This latter pathway involves the Ca(2+)-calmodulin dependent phosphodiesterase and the regulatory proteins Gs and Gi.
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PMID:Mechanisms of action of cyclosporin A on islet alpha- and beta-cells. Effects on cAMP- and calcium-dependent pathways. 166 May 57

Autophagy is a non-selective bulk process for degradation of cytoplasm, as indicated by ultrastructural evidence and by the similarity in autophagic sequestration rates of various cytosolic enzymes with different half-lifes. The initial autophagic sequestration step is subject to feedback inhibition by amino acids, an effect which is potentiated by insulin and antagonized by glucagon. Epinephrine and other adrenergic agonists inhibit autophagic sequestration through a prazosin-sensitive, alpha 1-adrenergic mechanism. The sequestration is also inhibited by cAMP and by protein phosphorylation as indicated by the effects of cyclic nucleotide analogues, phosphodiesterase inhibitors and okadaic acid. Asparagine specifically inhibits autophagic-lysosomal fusion without having any significant effects on autophagic sequestration, intralysosomal degradation or on the endocytic pathway. Autophaged material that accumulates in prelysosomal vacuoles in the presence of asparagine is accessible to endocytosed enzymes, revealing the existence of an amphifunctional organelle, the amphisome. Evidence from several cell types suggests that endocytosis may be coupled to autophagy in a differential (ligand-dependent) manner, and that amphisomes may play a central role as collecting stations for material destined for lysosomal degradation.
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PMID:Hepatocytic autophagy. 166 81

At the initial phase of cell differentiation in mouse neuroblastoma (N18) induced by dibutyrylcyclic AMP (dbcAMP), an additional site of histone H1 was extensively phosphorylated. Forskolin and various phosphodiesterase inhibitors also induced both cell differentiation and H1 phosphorylation at the identical site. The phosphorylation preferentially occurred in a single H1 subtype (H1c) among the five (H1a-e) fractionated by high performance liquid chromatography. The three H1 subtypes of N18 (H1c, H1d, and H1e) were phosphorylated in vitro, and their amino acid sequences of the phosphopeptides were identical to the known sequence of rabbit H1 peptides containing a serine 37 residue. However, the amount of H1a and H1b phosphorylations was negligible. The serine residue was replaced by threonine residue in H1a, and H1b did not have a homologous peptide. The tryptic phosphopeptides of H1 in N18 were identical to that in rat liver H1 induced by glucagon (Langan, T.A. (1969) Proc. Natl. Acad. Sci. USA 64, 1276-1283). The results indicate that 1) the response of H1 subtypes to cAMP-dependent protein kinase in vivo and in vitro is H1 subtype-specific, and 2) the H1c phosphorylation may play an important role in the restrictive area of chromatin in both cell differentiation and hormonal stimulation mediated by cAMP.
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PMID:Subtype-specific cyclic AMP-dependent histone H1 phosphorylation at the differentiation of mouse neuroblastoma cells. 169 Jul 30

We investigated the tubular action of endothelin in rat nephron segments. The effects of endothelin on arginine vasopressin (AVP)-, parathyroid hormone-, glucagon-, calcitonin-, and isoproterenol-dependent cAMP accumulation were studied. The following nephron segments were microdissected: glomerulus (Gl), proximal convoluted tubule (PCT), cortical and medullary thick ascending limbs of Henle's loop (cTAL and mTAL, respectively), cortical collecting duct (CCD), outer medullary collecting duct (OMCD), and inner medullary collecting duct (IMCD). Endothelin dose dependently (10(-8)-10(-10)M) inhibited AVP-dependent cAMP accumulation in CCD, OMCD, and IMCD. This effect was independent of the presence or absence of phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, Ca channel blocker nicardipine, or indomethacin, but was abolished in the presence of protein kinase C inhibitor H-7. Protein kinase C stimulator dioctanoyl glycerol mimicked the effect of endothelin. On the other hand, endothelin had no inhibitory effect on AVP-dependent cAMP accumulation in cTAL or mTAL, parathyroid hormone-dependent cAMP accumulation in Gl and PCT, or glucagon-, calcitonin-, and isoprotereol-dependent cAMP accumulation in OMCD. We conclude that endothelin specifically inhibits AVP-dependent cAMP accumulation in CCD, OMCD, and IMCD through activating protein kinase C. This effect possibly has a role in maintaining urine volume to counteract the decrease in GFR caused by endothelin itself.
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PMID:Effects of endothelin on peptide-dependent cyclic adenosine monophosphate accumulation along the nephron segments of the rat. 169 79

The present studies demonstrate that the beta-cell line RINr1046-38 (RIN-38) retains the capability to secrete insulin in response to glucose. The maximal effect of glucose was a 5- to 9-fold stimulation of insulin secretion from RIN-38 cells. This glucose-induced insulin secretion was maximal at 0.6 mM and was modulated by other secretagogues. Potassium concentrations of 10 mM, adenylate cyclase activators (glucagon-like peptide-1 and forskolin), and a phosphodiesterase inhibitor (isobutylmethylxanthine) potentiated glucose-induced insulin secretion, but had little or no effect on insulin secretion in the absence of glucose. Potassium concentrations of 20 mM or more, glibenclamide, and carbachol (Cch) stimulated insulin secretion 8- to 12-fold in the absence of glucose, while only Cch potentiated the effect of glucose on insulin secretion. Amino acids (alanine, arginine, leucine, and ketoisocaproate) also stimulated insulin secretion. The alpha 2-adrenergic agonist clonidine (1 microM), low extracellular calcium (less than or equal to 0.5 mM), and extended culture of RIN-38 cells at low glucose concentrations (0.33 mM) inhibited the stimulatory effect of glucose on insulin secretion. Insulin secretion was retained in RIN-38 cells for up to 98 passages. However, extended passage was associated with a decline in cellular insulin content (83% decline over 89 passages). In addition, high passage cells lost the ability to secrete insulin in response to glucose, but continued to respond to other secretagogues (K+, alanine, and carbachol). In fact, in the absence of glucose the effect of Cch on insulin secretion was well maintained in high passage cells (8- and 9.9-fold increase in insulin secretion, passages 9 and 70, respectively). Thus, low passage RIN-38 cells secrete insulin in response to glucose and other insulin secretagogues. High passage cells do not respond to glucose, but continue to respond to other secretagogues. Based on these results we propose that high and low passage RIN-38 cells provide a model for examining molecular mechanisms of glucose-induced insulin secretion. In addition, these findings emphasize that passage information is essential for interpretation of secretion studies with RIN cell lines.
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PMID:Modulation of glucose-induced insulin secretion from a rat clonal beta-cell line. 170 Nov 27

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


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