UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prostaglandin E1, epinephrine, secretin, and glucagon are known inhibitors of gastric acid secretion, and each agent stimulated mucosal membrane (600 X g pellet) adenylyl cyclase activity from the corpus of the rat stomach. This adenylyl cyclase activity was also stimulated by 5'-guanylyl-imidodiphosphate and sodium fluoride but not by guanosine-5'-triphosphate. By contrast, the gastric acid secretagogues, pentagastrin, histamine, and carbachol, had no effect on basal or prostaglandin E1-stimulated mucosal adenylyl cyclase activity. Most of the sodium fluoride- and hormone-stimulated adenylyl cyclase of the corpus mucosa was contained in the 600 X g membrane fraction. The enzyme exhibited Michaelis-Menten kinetics with respect to the concentration of ATP, with an apparent Km of 0.25 mM. Histamine did not stimulate rat mucosal adenylyl cyclase activity under a variety of conditions, but did stimulate the same enzyme in guinea pig gastric fundic mucosa, an enzyme also activated by prostaglandin E1. These studies do not support the hypothesis that cyclic AMP mediates the actions of gastric acid secretagogues on the parietal cell in the rat.
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PMID:Rat gastric mucosal adenylyl cyclase. 18 24

The effect of glucagon on gastric acid and pepsin secretion, basal or stimulated by a meal, pentagastrin and histamine, was studied in duodenal ulcer patients. Intravenous glucagon infused in graded doses ranging from 6.2 to 50 mug per kg-hr produced a dose-related inhibition of pentagastrin-induced acid secretion reaching about 40% of the control level at the dose of 50 mug per kg-hr. Acid inhibition was paralleled by a decrease in the pepsin output and serum calcium level and was accompanied by a rise in the blood glucose concentration. Glucagon used in a standard dose of 25 mug per kg-hr produced about 50% inhibition of acid secretion induced by a meal (measured by intragastric titration) accompanied by a significant decrease in the serum gastrin level measured by radioimmunoassay. Histamine-induced secretion was only slightly inhibited by glucagon, and the degree of inhibition for acid (25%) and pepsin (20%) secretion was statistically insignificant.
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PMID:Effect of glucagon on meal-induced gastric secretion in man. 108 77

The mechanism by which histamine induces glycogenolysis was investigated in rat hepatocytes. Histamine induced stimulation of glucose output in hepatocytes in a dose-dependent manner. The maximal effect of the glycogenolytic action of histamine, which was approximately 60% of the maximal glucagon action, was obtained at 10(-6) M. These effects were inhibited by H1 receptor antagonists triprolidine hydrochloride and tripelennamine but not by a H2 receptor antagonist cimetidine. Histamine also increased the activity of phosphorylase a. When 10(-6) M histamine and 5 x 10(-9) M glucagon were added simultaneously, the actions of these two agents were additive. In contrast, there was no additivity when 10(-6) M histamine and 10(-8) M angiotensin II were added. Histamine did not increase adenosine 3',5'-cyclic monophosphate at any doses tested but induced a rapid increase in the cytoplasmic free calcium concentration ([Ca2+]c). Histamine increased [Ca2+]c even in the presence of 1 microM extracellular calcium, an observation suggesting that histamine caused calcium release from an intracellular calcium pool(s). When [3H]inositol-labeled hepatocytes were incubated with histamine, radioactivity in the D-myo-inositol trisphosphate fraction was rapidly increased. These results indicate that histamine acts on rat hepatocytes mainly via H1 receptors and stimulates glycogenolysis by activating the calcium messenger system.
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PMID:Mechanism of glycogenolytic action of histamine in rat hepatocytes. 166 11

The direct effect of glucagon on human parietal cell function in vitro was tested by measuring adenylate cyclase (AC) activity and H+ production in homogenates of human gastric mucosa obtained during surgery or at biopsy. Cells isolated from mucosa obtained during surgery showed an increase in AC with histamine and glucagon. In parietal cell enriched fractions (75%) glucagon and histamine stimulated AC much more effectively than in parietal cell depleted fractions (15% and 7%). In contrast, glucagon did not affect basal or histamine stimulated 14C amino pyrine uptake. In homogenates of mucosal biopsy specimens 2 X 10(-7) mol/l glucagon enhanced AC activity by 76% (corpus) and 20% (antrum). In the same homogenates 10(-4) mol/l histamine caused a stimulation by 161% (corpus) and 38% (antrum). In fundic biopsy specimens glucagon displayed a biphasic concentration response curve with an increase at 10(-10) mol/l (46% above basal AC activity) and a maximum at 2 X 10(-7) mol/l (97%). Histamine elicited the maximal response (192%) at 10(-3) mol/l. Increasing histamine and glucagon concentrations caused additive stimulation of AC. Ranitidine did not change AC in response to glucagon but abolished the effect of histamine. Data suggest that the glucagon action is mediated by separate (glucagon?) receptors. As H+ production was not affected by glucagon, the coexistence of two AC systems in the human parietal cell is postulated: One that is activated via histamine H2-receptors and which stimulated H+ production; another that is activated by glucagon and is directed towards other, possibly metabolic effects.
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PMID:Effect of glucagon on adenylate cyclase activity and acid production of isolated human parietal cells. 302 Mar 13

Since in vivo pancreatic glucagon inhibits gastric acid secretion it was of interest to test its direct effect on human parietal cell function in vitro by measuring adenylate cyclase (AC) activity and H+ production. Cells were isolated from human gastric mucosa obtained at surgery for peptic ulcer. In enriched (75%) parietal cells glucagon and histamine stimulated AC much more effectively than in the parietal cell depleted (15%, 7%) fractions. In contrast basal and histamine-stimulated [14C] aminopyrine uptake, an indirect measure of parietal cell H+ production, was not affected by glucagon. In homogenates of mucosal biopsy specimens 2 X 10(-7) mol/l glucagon enhanced AC activity by 76% (corpus) and 20% (antrum), respectively; in the same homogenates 10(-4) mol/l histamine caused a stimulation by 161% (corpus) and 38% (antrum). In fundic biopsy specimens glucagon displayed a biphasic concentration response curve with an increase at 10(-10) mol/l (46% above basal AC activity) and a maximum at 2 X 10(-7) mol/l (97%); histamine elicited the maximal response (192%) at 10(-3) mol/l. Histamine (10(-5), 10(-4), 10(-3) mol/l) and glucagon (10(-10) to 10(-6) mol/l) caused additive stimulation of AC. Ranitidine did not change AC in response to glucagon but abolished the effect of histamine. Our data demonstrate that glucagon stimulates an AC bound to the parietal cells. This response is not blocked by ranitidine suggesting that the glucagon action is mediated by a separate receptor, possibly by a glucagon-receptor. Furthermore we have shown that glucagon in contrast to its effects on AC does not affect H+ production.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of glucagon and histamine on human parietal cells. 372 3

In this work, we show directly the existence of specific binding sites for Glucagon-37 (G-37) in isolated oxyntic glands from rat fundic mucosa. The binding of 125I-Glucagon-37 was inhibited by G-37 with a dissociation constant KD = 2.6 X 10(-9) M (high affinity binding capacity = 85 fmol/mg of protein) and by pancreatic Glucagon (G-29) with a KD = 2.2 X 10(-8) M. These results confirm the tissue specificity of G-37, evidenced in vitro on the cyclic AMP production by the same glands and in vivo on the inhibition of gastric acid secretion. They suggest that these activities are related to the G-37-binding on this novel receptor site for Glucagon-related peptides, which is distinct from receptors for the main stimulants of acid secretion, such as Gastrin, Histamine or cholinergic agents.
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PMID:[Demonstration of a specific receptor site for glucagon-37 (oxyntomodulin/bioactive enteroglucagon) in rat oxyntic glands]. 609 50

The secretagogue effect of histamine on calcitonin secretion has been studied in 15 patients with medullary thyroid carcinoma and compared with known stimuli: glucagon and calcium in combination with pentagastrin. The effect of concomitant histamine H2-receptor blockade on these responses has been studied in the same patients. Seven patients with undetectable basal plasma calcitonin concentrations had measurable responses to calcium/pentagastrin but not to histamine or glucagon. In the remaining eight subjects, significant responses were seen to all three test substances, calcium/pentagastrin proving to be the most potent secretagogue. Establishment of H2-receptor blockade with cimetidine had no effect on basal calcitonin concentrations and did not suppress responses to histamine, calcium or pentagastrin. The variable secretagogue effect of histamine could be mediated through H1-receptors, through nonspecific vascular dilation "washing out" preformed calcitonin, or through its destruction to varying degrees by histaminase, present in most medullary thyroid tumors. Histamine is unlikely to replace calcium/pentagastrin as the most discriminative, provocative diagnostic agent in medullary thyroid carcinoma, but correlation of secretory responses with tissue histaminase concentrations and attempted blockade with differing antihistamines will further our understanding of this tumor.
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PMID:Histamine and calcitonin release from medullary thyroid carcinoma. 613 Aug 34

Isolated tissues from rat and guinea pig hearts were employed to investigate the relationship between the positive inotropic effects of isoproterenol and glucagon and the shortening of time to peak tension (TPT). The involvement of cAMP in the inotropic responses to histamine and isoproterenol and corresponding changes in TPT was also studied. On isoproterenol challenge, a correlation was found between the percent increase in tension and reduction in TPT. Histamine produced a positive inotropic response in both guinea pig left atria and papillary muscles; however, TPT was shortened only in the cAMP-associated response of the papillary muscle. In guinea pig left atria, isoproterenol in the absence and presence of D-600, RO-20-1724, or propranolol increased tissue levels of cAMP and decreased TPT such that a significant correlation was found between these two parameters. The significance of relationships among positive inotropic responses, tissue levels of cAMP, and TPT is discussed.
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PMID:Inotropic responses, cyclic AMP, and time to peak tension in isolated cardiac preparations. 630 91

The generation of T-cell colonies from human peripheral blood lymphocytes is a sensitive in vitro measure of cell-mediated immunity, considered to be under different and/or additional regulatory controls than short-term liquid cultures. The influences of steroids (aldosterone, estradiol, diethylstilbestrol, hydrocortisone, prednisolone, progesterone, testosterone), prostaglandins (PGA1, PGA2, PGB1, PGB2, PGE1, PGE2, PGF1 alpha), bradykinin, cyclic adenosine monophosphate (AMP), cyclic guanosine monophosphate (GMP), epinephrine, glucagon, histamine, insulin, luteinizing hormone, luteotropic hormone, serotonin, and thyroxin on the generation of both T-cell colonies in semisolid phase and induction of transformation in liquid culture was assessed in parallel assays. Steroids uniformly suppressed both types of culture systems, although colony formation appeared more sensitive by several hours of magnitude. In contrast, significant differences in the response of lymphocytes in colony formation assay, compared to liquid transformation, was noted for the other agents. Prostaglandins significantly inhibited colony formation even in the presence of as little as 10(-12) M PGE2; however, liquid culture responses were suppressed only by higher concentrations (10(-5) M) and enhanced transformation was found at lower concentrations (10(-9) M). Bradykinin, glucagon, and luteinizing hormone did not significantly influence either colony formation or liquid transformation. In contrast, cyclic AMP inhibited and cyclic GMP stimulated colony formation and liquid transformation. Histamine, insulin, epinephrine, and serotonin all had significant positive or negative influences on colony formation in concentrations that produced no detectable effects using conventional liquid transformation assays. Finally, correlation analysis of drug effects for each system extends the thesis that these assays quantitate different parameters of T-cell function. T-lymphocyte colony formation is a promising diagnostic tool for rapid screening of immune modulating agents.
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PMID:Pharmacologic and biochemical modulation of human T-lymphocyte colony formation: hormonal influences. 697 65

The effects of infused glucagon, histamine and vasopressin on blood flow in anaesthetized rats with intrahepatic tumors were studied using microspheres labelled with 99Tcm or 51Cr isotopes. Considerable circulatory effects were noted both in central hemodynamic parameters as well as in organ and tissue blood flows. glucagon infusion increased blood flow in the spleen and small intestine while hepatic artery flow was unchanged. Histamine induce a decrease in hepatic and pulmonary blood flow Vasopressin showed a pronounced decrease in blood flow in all organs measured. Relative tumor blood flow was registered as the ratio between tumor flow and arterial hepatic flow. A relative decrease of tumor blood flow in relation to surrounding liver tissue blood flow was registered after infusion of vasopressin. No effects were seen after glucagon or histamine infusion.
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PMID:Blood flow in experimental liver tumors: effect of vasoactive drugs. 746 35

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