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)

Treatment of rats with chemical carcinogens, including 2-acetylaminofluorene (2-AAF), leads to a strong increase in the hepatic catecholamine-sensitive adenylate cyclase activity. The present study was undertaken to investigate the mechanism for the development of this increase. We report that hepatocytes isolated from rats which had been fed 2-AAF (0.025% w/w) for 8-12 weeks had an increased number of beta-adrenoceptors, as determined by [3H]dihydroalprenolol binding to whole cells and [125I]iodocyanopindolol binding to washed particles. For both ligands the number of binding sites was about 4-fold higher in hepatocytes from 2-AAF-treated rats than in those from controls. The adenylate cyclase activity of the carcinogen-fed animals showed both a general increase manifested in the basal level (2-fold) and in the activities obtained by stimulation with guanine nucleotides (2-3-fold), cholera toxin (1.5-fold), and glucagon (1.3-fold) and a selective, larger increase in the beta-adrenoceptor-linked activity (7-fold increment of the isoproterenol-sensitive activity). The results indicate that the number of hepatocyte beta-adrenoceptors increases during 2-AAF carcinogenesis. This may, at least in part, explain the rise in catecholamine-sensitive adenylate cyclase activity.
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PMID:Increased number of beta-adrenoceptors in hepatocytes from rats treated with 2-acetylaminofluorene. 300 84

Glucagon increases contractility of the heart muscle by stimulation of adenylate cyclase activity and elevation of cAMP. We have investigated the specific time of onset of glucagon sensitivity of heart muscle during development of the chick embryo. Using both isolated heart preparation and cultured cardiac cells, we have found that the contractile response to glucagon cannot be detected prior to Day 4 of development. Binding studies, carried out with heart cells prepared from 3-, 5-, 7-, and 11-day chick embryos, showed a significant increase in the number of glucagon binding sites between Days 3 and 5. Scatchard analysis showed that for Day 5 cells maximum binding capacity was 0.56 pmole/mg of protein with Kd of 16.0 nM, while for Day 3, maximal binding was only 0.16 pmole/mg with Kd of 15.1 nM. Therefore in this 2-day interval there was a marked increase in the receptor number, without changes in the receptor affinity. Since hormonal stimulation of adenylate cyclase depends on the presence of the regulatory component (Ns), we have used cholera toxin-induced chronotropic effect as an assay for functional Ns. No response to cholera toxin could be detected prior to Day 4 of chick heart development. Therefore, emergence of the cholera toxin sensitivity correlates well with the onset of responsiveness to glucagon. We conclude that as the heart develops it acquires a physiological responsiveness to glucagon. The acquisition of the hormonal sensitivity correlates with the increase in the receptor number and the functional levels of regulatory component.
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PMID:Development of physiological responsiveness to glucagon during embryogenesis of avian heart. 303 29

The possible participation of the regulatory proteins Ns and Ni in the regulation of phospholipase C activity in rat pancreatic islets was investigated. The islets were preincubated for 120 min with myo-[2-3H]inositol and the fractional outflow rate of [3H]inositol or production of [3H]inositol 1-phosphate was then measured. Glucagon failed to affect these metabolic variables, whether in the absence or presence of D-glucose. Pretreatment of the islets with cholera toxin also failed to affect basal or glucose-stimulated [3H]inositol outflow. Likewise, clonidine, which abolished insulin release evoked by D-glucose and carbamylcholine, failed to prevent the stimulant action of these secretagogues upon either [3H]inositol outflow or [3H]inositol 1-phosphate production. It is concluded that the regulatory proteins Ns and Ni apparently do not play any major role in the regulation of phosphoinositide phosphodiesterase activity in islet cells.
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PMID:Unresponsiveness of phospholipase C to the regulatory proteins Ns and Ni in pancreatic islets. 310 94

The modulation of adenylate cyclase by guanosine triphosphate (GTP) and hormones was examined in liver membranes of lean and ob/ob mice, to determine whether a defective regulation of cyclase similar to that found in adipocyte membranes was present. In conjunction with GTP, glucagon was a powerful stimulant of cyclase in both types of membranes. In contrast, GTP alone or in conjunction with isoproterenol and norepinephrine stimulated significantly less in the membranes of the lean than in those of the obese mouse. In addition, low concentrations of norepinephrine elicited an inhibitory response in membranes of the lean mouse, but not in those of the obese. This inhibitory effect of norepinephrine was abolished by the alpha 2-antagonist yohimbine and by treatment with pertussis toxin, but not by propranolol or treatment with cholera toxin. These data show that it is possible to demonstrate inhibitory effects of guanine nucleotides on cyclase in the membranes from lean but not those from obese mice and suggest a defect in inhibitory regulation in the tissue of the obese.
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PMID:The regulation of adenylate cyclase in liver membranes of lean and obese mice. 318 21

Although early work implicated PRL as the pituitary factor inducing rat hepatic PRL receptors, recent studies indicated that GH, not PRL, was responsible. The roles for these two hormones were evaluated on rat hepatocytes cultured in serum-free medium supplemented with insulin (1 microgram/ml), epidermal growth factor EGF (25 ng/ml), glucagon (500 ng/ml), cholera toxin (2 ng/ml), hydrocortisone (10(-8) M), and transferrin (1 microgram/ml) and changed daily. Ovine (o) PRL, bovine (b) GH, or human (h) GH were introduced after 2-4 days of culture, and PRL receptors were measured by determining [125I]hGH binding in the presence and absence of excess oPRL in a total particulate fraction pretreated with 3 M MgCl2. The specific binding of hGH (% per 100 micrograms protein) decreased by 8- to 10-fold (female, 17.9 +/- 0.2% to 1.5%; male, 7.0 +/- 0.1% to 0.7%) after 3 days in culture. When added after 3 days, hGH induced PRL receptors in both female and male cells with the effect being more gradual in the latter. Induction occurred with 10 ng/ml hGH and was maximal [11- to 13-fold control] at 250-1000 ng/ml. bGH and oPRL also induced PRL receptors with maximal levels attained at 250-500 ng/ml oPRL (3- to 4-fold control). The combined addition of oPRL (300 ng/ml) and bGH (300 ng/ml) yielded levels of induction comparable to that seen with hGH. Although hormone treatment restored PRL receptor levels to those seen in male rats, the much higher levels of female rats were not attained. Treatment of hepatocytes with hGH, bGH, or oPRL affected neither cell number (through 10 days of culture) nor PRL receptor affinity. At supramaximal doses hGH, PRL, and bGH down-regulated PRL receptors, but this was particularly noticeable for oPRL and hGH. 17 beta-Estradiol and testosterone added to male and female hepatocytes simultaneously with hGH had little or no effect on receptor induction. We conclude that hepatic PRL receptors are induced by both PRL and GH, each acting through its own receptor. The failure to restore receptor levels to those seen in female rats attests to the importance of other modulators. This dual regulation of the PRL receptor explains the unusual potency of hGH which binds to both PRL and GH receptors.
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PMID:Prolactin (PRL) receptor induction in cultured rat hepatocytes: dual regulation by PRL and growth hormone. 334 48

The effects of the cytosol activator protein obtained from rat reticulocytes (RCAP) were investigated in a heterologous membrane system--partially purified cell membranes from dog renal cortex. RCAP enhanced the response of dog renal cortical adenylate cyclase to bovine parathyroid hormone (1-34) [bPTH (1-34)] from two- to three-fold. RCAP also enhanced the response to 5 microM arginine vasopressin, 10 microM glucagon, and 10 microM isoproterenol. Analysis of double-reciprocal plots of substrate concentration and enzyme activity indicated that bPTH (1-34) alone and together with RCAP increased the Vmax of the adenylate cyclase enzyme and did not alter the apparent Km of the enzyme for MgATP. Membranes from dog renal cortex contain 42K and 39K proteins that are ADP-ribosylated by cholera toxin and pertussis toxin, respectively, and appear to be the stimulatory (Ns) and inhibitory (Ni) guanine nucleotide binding proteins described in many other hormone-responsive membrane preparations. Similar to its effects in rat reticulocytes, RCAP inhibited ADP-ribosylation of Ns and enhanced ADP-ribosylation of Ni. The muscarinic agonist, carbachol, inhibited PTH-responsive adenylate cyclase activity in dog renal cortical membranes and this inhibition was reversed by RCAP. These results indicate that RCAP enhances stimulation of adenylate cyclase by a variety of hormones in a heterologous membrane preparation and supports the hypothesis that RCAP's site of action is common to all adenylate cyclase systems. RCAP may facilitate coupling between Ns and the catalytic unit of adenylate cyclase by a pertussis toxin-like effect to inactivate Ni. The dual effects of RCAP upon ADP-ribosylation of Ni and Ns alpha subunits suggest that a binding site for RCAP may exist at a site of homology between Ns alpha and Ni alpha.
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PMID:Enhancement of parathyroid hormone-responsive renal cortical adenylate cyclase activity by a cytosol protein activator from rat reticulocytes. 350 32

Adenylate cyclase (AC) activity was demonstrated histochemically using adenylate-(beta,gamma-methylene)diphosphate as substrate in cryostat sections of livers from 45 rats treated for 7-10 weeks with N-nitrosomorpholine (NNM) (120 mg/l drinking water) and from nine untreated control rats. The enzyme patterns of normal tissue, preneoplastic and neoplastic lesions were characterized and correlated with the morphologically defined stages of tumour development in the liver. Light microscopically, the enzyme activity of normal tissue was restricted to the plasma membrane, and was most pronounced along the bile canaliculi of the hepatocytes. In glycogen storage foci and mixed cell foci induced by NNM no, or only very weak, AC activity was visible. In the cells of neoplastic nodules and hepatocellular carcinomas AC activity was also clearly reduced. However, in small parts of the plasma membrane which lined lumina resembling normal bile canaliculi and in cytoplasmic vesicles closely associated with these structures, some AC activity was occasionally detected by light and electron microscopy. Whereas the tissue of normal appearance surrounding the lesions showed a marked increase in AC activity in the presence of glucagon, forskolin and cholera toxin. AC activity in the preneoplastic and neoplastic liver lesions could not, or could only weakly, be stimulated by this treatment. As demonstrated in serial sections of the foci, the reduction in AC activity corresponded to changes in the activity of other enzymes studied earlier in the same model. Thus the reduction in AC activity was accompanied by a decrease in the activity of glucose-6-phosphatase and glycogen phosphorylase, and by an increase in the activity of glucose-6-phosphate dehydrogenase. The results support the concept that the focal changes in the activity of many enzymes (including those of carbohydrate metabolism) during hepatocarcinogenesis are the consequence of aberrations in superordinate regulatory mechanisms of cell metabolism.
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PMID:Loss of adenylate cyclase activity in preneoplastic and neoplastic lesions induced in rat liver by N-nitrosomorpholine. 369 88

Adenylate cyclase activity was demonstrated cytochemically in rat liver for the first time under the light microscope using cryostat sections mounted on glass cover slips and fixed with 1% glutaraldehyde for 1 min. Adenylate-(beta, gamma-methylene)diphosphate (AMP-P(CH2)P) was introduced as a new substrate for adenylate cyclase. It was found that adenylate cyclase was distributed heterogenously within the liver lobule. The enzyme activity was stronger in the area surrounding the central vein. A more specific localization at the plasma membrane and less unspecific background was obtained with AMP-P(CH2)P as compared to adenylylimidodiphosphate (AMP-P(NH)P). The specificity of the enzyme reaction using AMP-P(CH2)P was proved by increased formation of reaction product in the presence of 0.05 mg/ml glucagon and 0.125 mg/ml cholera toxin, as well as by inhibition of the reaction with 0.05 mg/ml alloxan. These effects were also observed at the electron microscopic level. On the other hand, no increase in reaction was observed in the presence of glucagon with AMP-P(NH)P as a substrate for adenylate cyclase, and only a weak activation was observed after adding cholera toxin; alloxan-inhibition was not complete. These effects may be due to the presence of enzymes which hydrolyze AMP-P(NH)P nonspecifically, superimposing on the product of adenylate cyclase activity. We therefore suggest the use of AMP-P(CH2)P as substrate for histochemical adenylate cyclase demonstration in the liver.
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PMID:Specificity of cytochemical demonstration of adenylate cyclase in liver using adenylate-(beta, gamma-methylene) diphosphate as substrate. 383 78

A method is described for preparing a plasma-membrane fraction from hepatocytes by a rapid, gentle, Percoll fractionation procedure. Cholera toxin elicited the ribosylation of a number of proteins in these membranes, including the components of the stimulatory guanine nucleotide regulatory protein, Ns. Insulin, however, inhibited the ability of cholera toxin to ribosylate a protein of Mr 25 000. The action was decreased in membranes from cells that had been pre-treated with glucagon. Ribosylation of both the components of Ns and the Mr-25 000 species occurred in whole cells treated with cholera toxin, because membranes from such treated cells exhibited decreased labelling when incubated with [32P]NAD+ and activated cholera toxin. The labelling of proteins, including the Mr-25 000 species, with [32P]NAD+ and cholera toxin in the plasma membranes was decreased by an inhibitor of ribosylation. Azido-GTP photoaffinity labelling identified several high-affinity GTP-binding proteins, including one of Mr 25 000. Cholera toxin failed to ribosylate the Mr-25 000 protein in membranes from cells that had been pre-treated with the tumour-promoting agent 12-O-tetradecanoylphorbol 13-acetate (TPA). In membranes from such treated cells, insulin actually allowed cholera toxin to label this species. As TPA activates protein kinase C, it is possible that the Mr-25 000 protein, or a species that interacts with it, is a substrate for phosphorylation. These observations may offer an explanation for some of the perturbing effects that TPA exerts on insulin's action. It is suggested that the insulin receptor interacts with the guanine nucleotide regulatory protein system in the liver, and that the Mr-25 000 species may be a component of Nin, a specific guanine nucleotide regulatory protein that has been proposed to mediate certain of the actions of insulin on target cells [Houslay & Heyworth (1983) Trends Biochem. Sci. 8, 449-452].
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PMID:Insulin inhibits the cholera-toxin-catalysed ribosylation of a Mr-25000 protein in rat liver plasma membranes. 389 32

In the present study effects of a new local anaesthetics, pentacaine (trans-2-pyrolidinocyclohexylester of 3-pentyloxyphenylcarbamic acid), and of some chemically related compounds on rat hepatic adenylate cyclase activity were studied under various experimental conditions. As compared with tetracaine, the local anaesthetics tested showed stronger inhibitory effects, regardless of the type of stimulating agents used to activate adenylate cyclase. The most potent effect was observed with pentacaine. Its inhibitory effects on glucagon, guanylylimidodiphosphate (Gpp/NH/p), sodium fluoride or forskolin stimulated activity suggest that it may directly act on the catalytic unit of adenylate cyclase. The same conclusion can be drawn based on its inhibitory effects on adenylate cyclase, regardless ATP concentrations used as the enzyme substrate, and on octylpyranoside solubilized enzyme activated by preincubation of the enzyme preparation with Gpp/NH/p. Structure-activity studies have suggested that the pentacaine molecule as a whole and none of its parts alone or its analogs are responsible for the inhibitory effect. However, the inhibitory effects of these compounds on the rat adenylate cyclase activity do not correlate with their local anaesthetic properties. The possibility of using adenylate cyclase inhibitors to decrease cyclic AMP production under pathological conditions, like in cholera, known to be due to a high adenylate cyclase activity, is discussed.
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PMID:Inhibitory effects of pentacaine and some related local anaesthetics on rat hepatic adenylate cyclase. 406 40


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