Gene/Protein
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Enzyme
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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
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
125I-labelled
GLP
-I(7-36)amide was cross-liked to a specific binding protein in rat lung membranes using disuccinimidyl suberate. A single radio-labelled band at Mr 66,000 was identified by SDS-PAGE after solubilization of the ligand-binding protein complex which is consistent with the presence of a single class of binding sites on rat lung membranes. The band was undetectable when 1 mumol/l
GLP
-I(7-36)amide was included in the binding assay. No change in the mobility of the band was observed under reducing conditions suggesting that the binding protein in the receptor is not part of a larger disulphide-linked protein. The intensity of the radiolabelled protein band was reduced when the incubation with 125I-labelled
GLP
-I(7-36)amide was carried out in the presence of guanine nucleotides suggesting that the
GLP
-I(7-36)amide receptor is coupled to the
adenylate cyclase
system.
...
PMID:Characterization of glucagon-like peptide-I(7-36)amide receptors of rat lung membranes by covalent cross-linking. 184 86
The arylpiperazine L-686,398 was described as an oral hypoglycemic agent and is shown to be an insulin secretagogue in vitro. The characteristics of its activity were similar to those of the incretin glucagon-like peptide I (GLP-I). We demonstrate that both the peptide and L-686,398 increase the accumulation of cAMP in isolated ob/ob mouse pancreatic islet cells, but by different mechanisms. Although
GLP
-I activates
adenylate cyclase
, the arylpiperazine has no effect on this enzyme or on the binding of 125I-labeled
GLP
-I to its receptor on RINm5F rat insulinoma cell membranes. However, L-686,398 inhibits the total cAMP phosphodiesterase (PDE) activity in homogenates of ob/ob mouse pancreatic islets with an EC50 of approximately 50 mumol/l. To determine the mechanism of PDE inhibition by the arylpiperazine and to examine its specificity, we studied the kinetics of arylpiperazine inhibition of two recombinant PDEs. The arylpiperazine is a competitive inhibitor of both a human heart type III PDE and a rat type IV-D PDE. Inhibition of the type III and IV isozymes are characterized by Ki values of 27 and 5 mumol/l, respectively. Although not extremely potent, the arylpiperazine does exhibit modest selectivity between these PDEs. The observation that L-686,398 acts as a PDE inhibitor suggests that exploration for beta-cell-specific PDE isoforms may reveal novel PDEs as targets for the development of therapeutically useful glucose-dependent insulin secretagogues.
...
PMID:A novel insulin secretagogue is a phosphodiesterase inhibitor. 781 16
The interactions of glucagon-like peptide-I(7-37)/(7-36)amide (
GLP
-I) and somatostatin-14 were characterized on the cyclic adenosine monophosphate (cAMP)-dependent signal transduction pathway and on proinsulin gene expression using mouse insulinoma beta TC-1 cells.
GLP
-I stimulated the activity of
adenylate cyclase
maximally at 1 mumol/L (151%). This effect was inhibited by 1 mumol/L somatostatin (119%). Forskolin also stimulated
adenylate cyclase
activity (10 mumol/L forskolin, 265%), and this action was inhibited by somatostatin (220%). Somatostatin alone left the basal
adenylate cyclase
activity unaltered. Somatostatin reduced the
GLP
-I-stimulated increase of intracellular cAMP levels (100 nmol/L
GLP
-I, 141%; 100 nmol/L
GLP
-I + 1 mumol/L somatostatin, 110%).
GLP
-I stimulated concentration-dependently the activity of protein kinase A (PKA), with a maximum at 10 nmol/L (181%). This action was inhibited by 100 nmol/L somatostatin (118%), but somatostatin did not influence the basal PKA activity. Furthermore, somatostatin reduced the
GLP
-I-induced stimulation of proinsulin gene expression (10 nmol/L
GLP
-I, 176%; 10 nmol/L
GLP
-I + 1 mumol/L somatostatin, 77%). Somatostatin itself inhibited concentration-dependently proinsulin gene expression (1 mumol/L somatostatin, 53%). These data demonstrate that
GLP
-I increases the activities of both
adenylate cyclase
and cAMP-dependent PKA, whereas somatostatin counteracts the stimulatory effect of
GLP
-I on
adenylate cyclase
activity, cAMP generation, PKA activity, and proinsulin gene expression. The interaction of both hormones occurs at the level of
adenylate cyclase
. Therefore, the interaction of both peptide hormones regulates downstream events, including gene expression.
...
PMID:Interaction of glucagon-like peptide-I (7-37) and somatostatin-14 on signal transduction and proinsulin gene expression in beta TC-1 cells. 791 Dec 22
Rat pancreatic alpha- and beta-cells are critically dependent on hormonal signals generating cyclic AMP (cAMP) as a synergistic messenger for nutrient-induced hormone release. Several peptides of the glucagon-secretin family have been proposed as physiological ligands for cAMP production in beta-cells, but their relative importance for islet function is still unknown. The present study shows expression at the RNA level in beta-cells of receptors for glucagon, glucose-dependent insulinotropic polypeptide (GIP), and glucagon-like peptide I(7-36) amide (
GLP
-I), while RNA from islet alpha-cells hybridized only with GIP receptor cDNA. Western blots confirmed that
GLP
-I receptors were expressed in beta-cells and not in alpha-cells. Receptor activity, measured as cellular cAMP production after exposing islet beta-cells for 15 min to a range of peptide concentrations, was already detected using 10 pmol/l
GLP
-I and 50 pmol/l GIP but required 1 nmol/l glucagon. EC50 values of
GLP
-I- and GIP-induced cAMP formation were comparable (0.2 nmol/l) and 45-fold lower than the EC50 of glucagon (9 nmol/l). Maximal stimulation of cAMP production was comparable for the three peptides. In purified alpha-cells, 1 nmol/l
GLP
-I failed to increase cAMP levels, while 10 pmol/l to 10 nmol/l GIP exerted similar stimulatory effects as in beta-cells. In conclusion, these data show that stimulation of glucagon,
GLP
-I, and GIP receptors in rat beta-cells causes cAMP production required for insulin release, while
adenylate cyclase
in alpha-cells is positively regulated by GIP.
...
PMID:Expression and functional activity of glucagon, glucagon-like peptide I, and glucose-dependent insulinotropic peptide receptors in rat pancreatic islet cells. 854 71
The interaction of glucagon-like peptide-I (GLP-I) and galanin in clonal endocrine pancreatic cells was characterized. By Northern blot analysis the presence of
GLP
-I receptor mRNA was shown in B (beta TC-1 cells) and D (RIN 1048-38) cells but not in A (INR1 G9) cells, thus confirming functional data demonstrating the absence of active
GLP
-I receptors on glucagon-producing cells. Galanin receptors were detected on B and D cells but not on A cells. In B and D cells galanin inhibited the
GLP
-I stimulated
adenylate cyclase
activity. Treatment of insulin- and somatostatin-producing cells with
GLP
-I increased intracellular cAMP levels, and this was dampened by galanin,
GLP
-I stimulated the activity of protein kinase A in B and D cells, which was also inhibited by galanin. Galanin alone did not influence B- and D-cell function. These data show that in the endocrine pancreas B and D cells but not A cells express
GLP
-I and galanin receptors. The interaction of
GLP
-I and galanin might act in the endocrine pancreas as a physiological inhibitor of the potent incretin hormone
GLP
-I. Therefore, we suggest galanin is a 'decretin'.
...
PMID:Interaction of glucagon-like peptide-I (GLP-I) and galanin in insulin (beta TC-1)- and somatostatin (RIN T3)-secreting cells and evidence that both peptides have no receptors on glucagon (INR1G9)-secreting cells. 859 Jul 87
