EC:4.6.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Although plasma glucagon levels in the rat fetus are in the adult range, hepatic glycogen is present in far greater abundance in the fetus than in the adult. To explain this paradox, adenylate cyclase response to glucagon was studied in partially purified membranes of rat livers obtained throughout perinatal life and at 3 months of age. The adenylate cyclase response to glucagon (10(-9) M) was only 7% of the adult response at day 15 of fetal life and 20% on the 21st day. No until after the 30th day postpartum did not reach maturity. Yet, the adenylate cyclase response to stimulation by NaF was comparable to the adult response throughout fetal life. The binding of [125I]iodoglucagon (2 X 10(-9) M) by these membrane preparations was only 1% of the adult level at day 15 of fetal life and increased to 23% at the 21st day, and, like the adenylate cyclase response to glucagon, did not reach maturity until after the 30th day of postnatal life. In contrast, insulin binding on the 15th day of gestation was 11% of the adult level and on the 21st day 45% of the adult level, reaching adult levels by the 30th postnatal day. An increase in membrane-associated particles, reflecting intramembranous protein, was observed during prenatal life, but the mean particle number per mum2 reached adult levels on the 21st day of fetal life, indicating that subsequent changes in hormone binding were clearly independent of non-specific changes in the number of particles. The findings suggest that the fetal liver is less sensitive to glucagon action than the adult liver, and that this glucagon "resistance" is mediated by a reduced capacity of the hepatocyte to bind glucagon at a time when substantial binding of insulin is demonstrable. Selective discrimination against glucagon may be important in promoting the anabolic processes required for normal fetal development.
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PMID:Development of insulin and glucagon binding and the adenylate cyclase response in liver membranes of the prenatal, postnatal, and adult rat: evidence of glucagon "resistance". 17 86

Experiments in vitro on tissue from a feminizing adrenocortical carcinoma removed from a postmenopausal patient are described. Portions of the adrenal tumor were cultured. The effects of ACTH, prolactin, and other protein hormones on the synthesis and secretion of steroid hormones by the cultured tissue were studied. Steroids were extracted from the culture medium with ethyl acetate. Steroid production was determined by high resolution-mass fragmentography and by radioimmunoassay. Results suggest that in vitro neither growth hormone (GH) nor luteinizing hormone (LH), at the concentrations used, effectively stimulated the synthesis and secretion of estradiol-17beta by the adrenal tumor tissue. However, ACTH and prolactin with insulin, appearing to influence the action of both these hormones, stimulated the output of estradiol-17beta. Steroid was being synthesized during the 3-day culture period. The tumor tissue actively synthesized and secreted into the medium estrone as well as estradiol-17beta under the influence of ACTH and prolactin with insulin. Data also suggest that LH and GH were capable of influencing the synthesis and secretion of androstenedione by the tissue explants. No DNA sulphate was present in the media from the tumor tissue cultures before or after incubation with either ACTH or prolactin. Results from studies with normal adrenal tissue in culture indicated that DNA sulphate, DHA, and androstenedione were present in the culture medium after 3 days' incubation. In this report the concentration of endogenous estrone relative to estradiol-17beta and estradiol was found to be high. The effect of protein hormones, other than ACTH, on adenylate cyclase activity of this tumor tissue indicated a lack of specificity of the membrane receptor sites. High resolution-mass fragmentography had greater specificity than radioimmunoassay.
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PMID:In vitro synthesis of steroids by a feminising adrenocortical carcinoma: effect of prolactin and other protein hormones. 18 Jul 40

The effects of various sugars on the simultaneous release of insulin and accumulation of cyclic AMP were studied in collagenase isolated rat pancreatic islets. D-Glucose stimulated the formation of cyclic AMP at 3 and 60 min of incubation, whether measured by a label incorporation technique, or by the protein kinase binding assay of Gilman. Only D-glucose and D-mannose were able to stimulate insulin release and cyclic [3H]AMP accumulation in the absence of other substrate. D-fructose had a stimulatory effect in the presence of 3.3 mM D-glucose only at a high concentration (33.8 mM), and enhanced the effects of 8.3 mM glucose when added at the concentration of 8.3 mM. D-Galactose was effective only together with 8.3 mM D-glucose. The order of potency of these hexoses, both regarding insulin secretion and cyclic [3H]AMP accumulation, was glucose-mannose-fructose-galactose. L-Glucose and 3-O-methylglucose had no effects at 60 min when incubated together with 8.3 mM D-glucose, whereas at 3 min, 3-O-methylglucose induced a small stimulation of the cyclic [3H]AMP response. D-mannoheptulose and D-glucosamine inhibited the insulin and cyclic [3H]AMP responses to 27.7 mM glucose. Mannoheptulose suppressed completely the glucose effect on cyclic nucleotide accumulation within 90 s. Although under all incubation conditions, the threshold stimulatory or inhibitory concentration of a given agent was identical for insulin release and cyclic [3H]AMP accumulation, these two variables showed quantitative differences in incubations of 60 min, the magnitude of the changes in insulin secretion being larger than that for the cyclic nucleotide. It is suggested that modulation of islet cyclic AMP level is an important step in the transmission of the effect of various sugars on insulin release; however, glucose and possibly other sugars may also enhance insulin release by additional mechanisms not involving the adenylate cyclase-cyclic AMP system of the beta-cell.
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PMID:Effect of hexoses and mannoheptulose on cyclic AMP accumulation and insulin secretion in rat pancreatic islets. 18 Oct 79

It has been suggested that the stimulatory effect of glucose on insulin release may be mediated by the adenylate cyclase-cyclic AMP phosphodiesterase system. In this study it was found that exposure of isolated pancreatic islets to an elevated extracellular glucose concentration for 1 week in vitro caused an increase of the cyclic AMP phosphodiesterase activity in the islet cells. These and previous data indicate that there is an increased turnover of cyclic AMP in B-cells exposed for a prolonged time to a high extracellular glucose concentration, which also causes an increased turnover rate of insulin.
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PMID:Long-term effects of a high glucose concentration on cyclic nucleotide phosphodiesterase activity in mouse pancreatic islets maintained in tissue culture. 18 50

Insulin accelerates the entry of glucose and amino acids into muscle cells by acting upon the 'carrier-facilitated' transport mechanism. For glucose this process is passive and leads to equilibration of intracellular and extracellular concentrations. In heart muscle, glucose transport is a rate-limiting step for glucose uptake. During hypoxia and ischemia the heart turns to anaerobic glycolysis for energy production and therefore, maximal glucose transport becomes important. Insulin is necessary to insure proper protein synthesis, probably at the level of membrane-bound polyribosomes. However, during myocardial hypoxia, insulin alone cannot restore the associated depression in protein synthesis. Although insulin hyperpolarizes the cell, a change in the ratio of intracellular to extracellular activities of potassium is not its primary mode of action. An insulin-induced configurational change in the plasma membrane could simultaneously account for the effects of insulin on sodium and potassium permeability and the action on facilitated transport. Intracellular levels of cyclic adenylate may be reduced by insulin in adipose tissue because of inhibition of adenyl cyclase or stimulation of phosphodiesterase. However, at this time there is little evidence that insulin alters cyclic AMP levels in the heart. Insulin secretion is depressed in patients with heart disease in proportion to the reduction of cardiac index sustained. Since the ischemic heart is dependent upon glucose as the major fuel, insulin lack may deprive the heart of adequate substrate.
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PMID:Insulin: fundamental mechanism of action and the heart. 18 67

The presence and development of immunoreactive gastrin (IRGa) in the fetal and neonatal pancreas and pyloric antrum of the rat were studied. IRGa appeared in both organs at least as early as the 16th day of fetal life. Antral IRGa increased rapidly and continuously in the neonatal period, while pancreatic IRGa concentration increased and was maintained at a relatively constant level from days 5 to 35. Monolayer cell cultures of the neonatal rat pancreas were used to evaluate the role of cyclic AMP mediated release of gastrin. The addition of N6,O2'-dibutyryl cyclic AMP (4 mM) or theophylline (4 mM) to the culture medium induced significant release of gastrin. The stimulation of adenylate cyclase with cholera toxin (10 ng/ml) also resulted in significant gastrin release. Long-term cultures (18-24 days) were shown to release gastrin continuously at a relatively constant rate. The cellular localization of pancreatic gastrin in 7-day-old cultures was performed by immunological techniques, using fluorescein-labeled antibodies to gastrin. The gastrin-containing cells were located at the periphery of most of the endocrine cell clusters. Immunofluorescence techniques for insulin and glucagon also showed that the alpha cells had a similar peripheral distribution, although they were more frequent in number. In contrast, insulin-containing cells were numerous and were present in all areas of the endocrine cell clusters. The studies support the following conclusions: a) Gastrin is present in the rat pancreas, even as early as late fetal life; b) Gastrin-producing cells are present and functionally competent in monolayer cell cultures of the neonatal rat pancreas for prolonged periods of time (24 days); c) Gastrin is released from these cells when intracellular levels of cyclic AMP are increased; d) By immunofluorescence methods, the gastrin-producing cells in pancreatic cell cultures are found to be located at the periphery of the endocrine cell clusters.
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PMID:Gastrin in the perinatal rat pancreas and gastric antrum: immunofluorescence localization of pancreatic gastrin cells and gastrin secretion in monolayer cell cultures. 18 64

Control of the levels of cAMP in the early phase after addition of catecholamines and the effect of insulin is discussed under consideration of own findings from experiments with isolated fat cells of the rat. Data on the kinetics of cAMP are interpreted in the light of results from several groups of a rapid activation of phosphodiesterase activity along with the adenylate cyclase system. Comparison of energy metabolism of fat cells with the formation of cAMP under conditions of near-maximal activation of the adenylate cyclase system by isoproterenol shows that about half of the cellular ATP turnover is used for information transfer. Insulin reduces cAMP concentrations in the presence of isoproterenol within one min of incubation when added either together with or after the catecholamine. Experiments with propranolol and the phosphodiesterase inhibitor, methyl isobutylxanthine suggest an effect of insulin on formation and breakdown of cAMP.
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PMID:Hormonal control of cyclic AMP turnover in isolated fat cells. 18 81

1. We have shown differences in hormonal regulation of adenylate cyclase activity in fat cell ghosts prepared from rat, rabbit, fox and badger adipose tissue, under the influence of catecholamines, ACTH and insulin. a) In the rat, catecholamines induced a large stimulation (+315%) of adenylate cyclase. b) In the rabbit, ACTH was the most effective hormone. c) In the fox and the badger, only catecholamines could stimulate adenylate cyclase. d) In both rat and rabbit, insulin did not reduce spontaneous enzymatic activity. Moreover, the activation of adenylate cyclase by ACTH in the rabbit was not altered by insulin, while in the rat, this hormone slightly decreased epinephrine stimulation. 2. Hormonal regulation of adenylate cyclase correlated with the lipolytic response.
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PMID:[Hormonal control of the adenyl cyclase activity of adipose cell membranes prepared from badger, rabbit, fox and rat adipose tissues]. 18 72

1. Epinephrine-induced increase in rat liver cyclic AMP in vivo was potentiated when the circulating insulin was suppressed by injection of anti-insulin serum or by induction of diabetes. Consequently, phosphorylase was activated, glycogen synthetase was inactivated and glycogen accumulation induced by glucose load was prevented by epinephrine in the insulin-deficient rats to a much larger extent than in normal rats. 2. Insulin lack was effective in potentiating epinephrine-induced increase in liver and muscule cyclic AMP even after the treatment of rats with theophylline; the potentiation could not be solely accounted for by the inhibition of cyclic AMP phosphodiesterase. Thus, it is likely that insulin lack enhaces epinephrine activation of adenylate cyclase. 3. Unlike epinephrine, glucagon increased liver cyclic AMP to essentially the same extent whether the rat was treated with anti-insulin serum or not. 4. Based on the difference in dose-response curves between normal and insulin-deficient rats, a possibility is discussed that there are two adenylate cylase in the liver with higher and lower affinities for epinephrine and that circulating insulin blocks the high affinity enzyme selectively.
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PMID:Attenuation of epinephrine-induced increase in liver cyclic AMP by endogeneous insulin in vivo. 18 27

Subacute cadmium treatment (CdCl2, 1 mg/kg twice daily for 7 days) in rats disturbs glucose homeostasis as shown by hyperglycemia and decreased glucose tolerance associated with suppression of insulin release, enhancement of hepatic gluconeogenic enzymes and decrease in hepatic glycogen content. 2 Exposure to cadmium increases hepatic cyclic adenosine 3',5'-monophosphate (cyclic AMP) and this is accompanied by stimulation of basal, adrenaline- as well as glucagon-stimulated form(s) of adenylate cyclase. 3 In contrast to cadmium, subacute administration of zinc (ZnCl2, 2 mg/kg twice daily for 7 days) fails to alter the activities of hepatic gluconeogenic enzymes, cyclic AMP synthesis, as well as glucose clearance and insulin release in response to a glucose load. 4 Zinc, when administered at the same time as cadmium, prevents the cadmium-induced lesions in both hepatic and pancreatic functions. 5 The results are discussed in relation to the possible mechanisms of cadmium toxicity and to the role of sulphydryl groups in the protection exercised by zinc.
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PMID:Prevention by zinc of cadmium-induced alterations in pancreatic and hepatic functions. 18 49

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