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)

(1) A system is described for studying the short-term effects of agents on proinsulin synthesis in vitro, as measured by the incorporation of [3H]leucine into isolated proinsulin. (2) Of the agents tested, glucose has the most marked, and apparently earliest, effect on proinsulin synthesis. (3) The adenyl cyclase system participates in the regulation of proinsulin synthesis since exogenous cyclic AMP, glucagon, and caffeine are stimulatory. When cyclic AMP is added to the medium in the presence of glucose, it is the most potent agent acting on the adenyl cyclase-phosphodiesterase system. (4) The addition of NADPH to isolated rat islets inhibits proinsulin and Bulk Protein synthesis in vitro.
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PMID:Regulation of proinsulin synthesis in isolated rat islets. 0 29

The total membrane-bound ATP hydrolytic activity in human epidermis is due to the activities of at least three differently located enzymes, namely Mg++-activated ATPase, phosphomonoesterase and adenyl cyclase. Cytochemical studies on psoriatic epidermis with various inhibitory and stimulatory substances showed reduced activities of ATPase and phosphomonoesterase, and a lack of sensitivity of adenyl cyclase to specific stimulators such as isoproterenol and glucagon. Since no differences of basal adenyl cyclase activity were observed between normal and psoriatic human skin without stimulation, it seems likely that in psoriasis a latent defect of adenyl cyclase may exist, resulting in a deficient response of this enzyme to regulatory agents. In conclusion, the present study reveals that not a single enzyme but the entire membrane-bound nucleotide metabolism is altered in psoriatic keratinocytes, causing a disturbance of the membrane-bound energy utilization, similar to findings in proliferating tumour cells.
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PMID:Ultrastructural localization and differentiation of membrane-bound ATP utilizing enzymes including adenyl cyclase in normal and psoriatic epidermis. 17 85

Cholera enterotoxin, 45 mug per 250 g body weight, administered intravenously to rats, caused a 6-fold rise in the activity of liver alkaline phosphatase in 12 hr. There was no change in bile volume or in the concentration or total bile content of Na+, K+, HCO3-, or Cl- for 36 hr after the administration of cholera toxin. However, bile phospholipid output fell markedly from a control level of 15.0 +/- 1.0 mumol per 6 hr to a low level of 4.0 +/- 1.2 mumol per 6 hr in the 12- to 18-hr collection, P less than 0.001. There was a similar fall in bile acid secretion, from a control value of 9.8 +/- 0.4 mumol per 6 hr to 4.1 +/- 0.9 mumol in the 12- to 18-hr period, P less than 0.01. The cholera effect was prolonged. Bile acid and phospholipid secretion rates did not return to control values until 30 to 36 hr after the administration of cholera enterotoxin. The cholera toxin-induced reductions in bile acid and phospholipid secretion into bile did not appear to be mediated by adenyl cyclase or cyclic AMP because neither glucagon, a known stimulator of liver adenyl cyclase, nor dibutyryl cyclic AMP had any effect on the secretion into bile of bile acids or phospholipid. The administration of cholera toxin was not associated with any increase in the secretion of free choline into bile. Glucagon and dibutyryl cyclic AMP, two other substances known to increase the activity of rat liver alkaline phosphatase, also had no stimulatory effect on the secretion of free choline into bile. The results do not support the hypothesis that the main function of rat liver alkaline phosphatase is to facilitate the excretion of free choline into bile.
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PMID:Effects of cholera enterotoxin, glucagon, and dibutyryl cyclic AMP on rat liver alkaline phosphatase, bile flow, and bile composition. 17 82

Adenyl cyclase activity of rat pancreatic islet membrane was increased by secretin, pancreozymin, and isoproterenol, while ACTH, glucagon, growth hormone, and insulin had no effect. Both secretin and isoproterenol activations were enhanced by prostaglandin E1 (PGE1) and GTP. Isoproterenol activation was additive with PGE1, as was that of secretin with PGE1, but only in the presence of GTP. Secretin activation in the presence of PGE1 and GTP was equivalent to NaF stimulation. Kinetic analysis indicated that secretin and GTP increased the maximum velocity of the adenyl cyclase and tended to decrease the apparent affinity of the enzyme for ATP. Glucagon activation of islet membrane adenyl cyclase was dependent upon prior treatment of the membrane preparation with EGTA and the use of inhibitors of proteolytic enzymes during the collagenase digestion phase of islet preparation. These results suggest that hormonal regulation of insulin secretion may be affected by PGE1 and guanine nucleotide modulation of the adenyl cyclase activation process.
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PMID:Hormonal regulation of pancreatic islet adenyl cyclase. 17 51

Hepatic and intestinal adenyl cyclase activity were measured after a single pulse injection of epinephrine or glucagon into normal dogs and into dogs subjected to hemorrhagic shock. The results indicated that hemorrhagic shock abolishes the increase in adenyl cyclase activity seen in normal animals following epinephrine and significantly reduces that induced by glucagon. These changes are reflected in the glucose production from the liver induced by these hormones. The response of adenyl cyclase to the in vitro addition of epinephrine or glucagon, as well as the nonspecific stimulator of adenyl cyclase, sodium fluoride, showed that it is the receptor site of the enzyme which is affected primarily by shock. The treatment of dogs with 30 mg/kg of methylprednisolone following the reinfusion of shed blood significantly improved the response of adneyl cyclase to epinephrine in both liver and intestine, and this improvement was reflected in the glucose production by the liver in response to the hormone.
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PMID:The enhancement of adenyl cyclase by steroid therapy in shock. 19 53

The influence of portal blood factors on canine liver regeneration was studied with graded nonhepatic splanchnic evisceration, coupled with 44 and 72 per cent hepatectomies. In one type of experiment, the pancreas was retained while the rest of the intra-abdominal gastrointestinal tract was removed. In a second variety, total pancreatectomy was performed with preservation of the intra-abdominal organs. In a third kind of experiment, total nonhepatic splanchnic evisceration was performed. Liver regeneration after hepatectomy was decreased by all three kinds of viscera removed as judged by deoxyribonucleic acid synthesis, autoradiography and mitotic index. Pancreatectomy and nonpancreatic splanchnic evisceration caused almost equal decreases in the regenerative response. Total nonhepatic splanchnic evisceration essentially halted regeneration during the first three postoperative days and intraportal infusions of insulin or glucagon, or both together, did not reverse this effect. The decrease in liver membrane bound adenyl cyclase activity and biphasic change in liver cyclic 3', 5' -adenosine monophosphate concentrations normally seen after partial hepatectomy were disrupted after the various eviscerations. Adenyl cyclase activity and cyclic 3', 5' -adenosine monophosphate concentrations tended to be higher than normal in the eviscerated dogs. These observations provide more support for our previously proposed hypothesis that control of liver regeneration is by multiple factors. Pancreatic hormones are important modifiers of this response but, by no means, exercise exclusive control. Other substances of gastrointestinal origin, presumably including hormones and nutrient supply apparently play important specific roles. The volume of portal flow is a secondary and nonspecific, but possibly significant, factor.
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PMID:The effect of splanchnic viscera removal upon canine liver regeneration. 21 May 29

Non-nucleated red blood cells from rats contain adenyl cyclase, the activity of which is predominantly localized in the reticulocytes. Basal enzyme activities in membrane preparations from reticulocyte-rich blood (pretreatment of rats with acetyl-phenylhydrazide: about 60% reticuloytes) are about 5 times higher than in preparations from reticulocyte-poor blood (untreated animals: 2-3% reticulocytes). The enzyme activities are stimulated 10-fold by sodium fluoride (10(-2)M) and 6 to 8-fold by isoprenaline (10(-4)M). Adenyl cyclase activities in membrane preparations from reticulocyte-rich and reticulocyte-poor blood can be ascribed to identical enzymes since identical apparent Km (ATP; 3 times 10(-4)M, Ka (isoprenaline; 3 times 10(-6)M) and Ki (propranolol vs. isoprenaline; 3 times 10(-7)M) values were obtained in both preparations. Besides NaF, only phenylethanolamine derivatives with beta-adrenergic receptor stimulant properties were effective as stimulators of adenyl cyclase activity. The affinities (apparent Ka values) of the investigated compounds decreased in the order isoprenaline--hexoprenaline--fenoterol--salbutamol--adrenaline--terbutalin--noradrenaline--phenylephrine. For maximal intrinsic activity, the catechol structure was essential; the relative intrinsic activities of resorcinol derivatives did not exceed 0.6. The isoprenaline-stimulated adenyl cyclase activities in erythrocyte membrane preparations were competitively inhibited by beta-adrenergic blocking drugs, the affinities (apparent Ki values) decreasing in the order prindolol--penbutolol--propranolol--practolol. The dextrorotatory enantiomers of penbutolol and propranolol were 1/100 to 1/200 as active as the resp. levorotatory enantiomers. From experiments with alpha-adrenergic agonists (e.g. phenylephrine) and antagonists (e.g. phentolamine), it is concluded that alpha-adrenergic receptors do not interfere with the beta-adrenergically-mediated cAMP formation in these particular membranes. A variety of hormones and drugs known to stimulate denyl cyclase activities in various tissues, e. g. ACTH, glucagon, STH, erythropoietin, prostaglandin E1 etc. did not affect adenyl cyclase activity in reticulocyte-rich erythrocyte membrane preparations. In contrast to adenyl cyclase activity, phosphodiesterase activities in erythrocyte membrane and cytoplasmic fractions were only twice as high in reticulocyte-rich as in reticulocyte-poor preparations. From the experiments described, it is obvious that the adenyl cyclase of the rat reticulocyte is subject to monovalent-hormonal, i.e. beta-sympathomimetic stimulation. Moreover, the premature red blood cell provides a useful model for quantitative studies of the interaction of drugs with the beta-adrenergic receptor.
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PMID:The beta-adrenergic receptor-adenyl-cyclase system of rat reticulocytes: effects of adrenergic stimulants and inhibitors. 24 Jan 35

The temperature optimum for the positive inotropic response of guinea-pig isolated atria to single submaximal doses of isoprenaline was 25 degrees C. This was well separated from that for rate responses (37.5 degrees C). This separation was not due to changes in catechol-0-methyl-transferase or phosphodiesterase activity since it occurred with orciprenaline alone and in the presence of theophylline. The rate optima for aminophylline, histamine, glucagon, ouabain, calcium chloride and dibutyryl cAMP were essentially the same as for isoprenaline. The temperature-dependences therefore lie at a common ultimate pathway leading to the rate response. The site of temperature-dependence of the inotropic response to isoprenaline is not at the common contractile mechanisms since its optimum differed from those of ouabain and CaCl2. Activity of cAMP and its production were also eliminated as possible sites from differing optima of aminophylline, histamine and dibutyryl cAMP. The temperature-dependence may lie at the beta-adrenoceptor itself, possibly adenyl cyclase. This may be shared by glucagon although tachyphaylaxis made its optimum difficult to determine.
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PMID:Possible sites of temperature-dependent changes in sensitivity of the positive inotropic and chronotropic responses to sympathomimetic amines by comparisons of the temperature optima for a range of agonists. 64 19

Insulin decreased markedly the adenylyl cyclase activity associated with fat cell membranes purified by centrifugation in sucrose gradients. The hormone effect was not readily evident in crude membrane preparations. The kinetics of this effect indicate that some time was required for the onset of the insulin-induced inactivation. This lag period decreased when the insulin concentration was increased. The hormone dose dependence for adenylyl cyclase inactivation measured at a fixed time (3 min) showed a 10 to 15% decrease in activity at 1 to 30 muU per ml insulin; 30 to 40% at 100 to 1000 muU per ml; and 75% at 0.1 U per ml. The insulin effect was completely abolished by 0.1 mM GMP-P(NH)P, 10mM fluoride, or 50 ng per ml glucagon, or by increasing the Mn++ concentration to 4 mM. In addition, it was partially reversed by the addition of a fraction from the sucrose gradient, which contained soluble factors. The kinetics of the adenyl cyclase-catalyzed reaction were studied using ATP or AMP-P(NH)P as adenylyl donor, and Mn++ or Mg++ as divalent cation, in the absence or presence of insulin. With ATP and Mg++ there was a striking reduction of the transient reaction rates after 1.5 min of incubation. Under these conditions the insulin effect was not evident. On the contrary, with ATP and Mn++ this spontaneous reduction of activity was less evident; however, in the presence of insulin there was a clear and marked reduction of the transient reaction rate measured after 1.5 min of incubation. With AMP-P(NH)P the kinetic data were qualitatively similar to those observed with ATP. It is concluded that under certain assay conditions adenylyl cyclase may be converted to an inactive enzyme form, and that such a conversion is more evident in the presence of Mg++ than with Mn++. In the latter case, insulin appears to enhance the rate of this conversion.
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PMID:Effects of insulin on the adenylyl cyclase activity of isolated fat cell membranes. 70 24

Homeostasis of the internal environment in mammals is accomplished by a series of feedback mechanisms in a variety of tissues. Homeostasis of cell structure and function during marked changes in the environment is equally important. Both types of homeostasis are dependent on adjustments in endocrine function and changes in enzyme activity. In some instances the intracellular servomechanisms required for homeostasis match in vigor and range the perturbations of the external environment. The regulation of cell metabolism is accomplished by enzymatic, membranous and genetic mechanisms. Most peptide hormones act by combining with a specific receptor in the membrane of sensitive cells, which activates adenyl cyclase to produce cyclic AMP which in turn has selective second messenger functions. Insulin and somatotropin appear to be exceptions and may act via cyclic GMP. Steroid hormones, on the other hand, pass through the cell membrane and combine with a specific receptor protein in the cytoplasm of sensitive cells. This receptor then serves as a transport system for movement of the hormone to the nucleus where it stimulates specific protein synthesis. Nutritional effects on enzyme synthesis are partially direct and partially mediated by the endocrine system. Trace nutrients, especially the fat-soluble vitamins, appear to act directly to modify specific protein syntheses, whereas the bulkier constituents of the diet (carbohydrate, fat protein) exert their effects principally through altered rates of secretion of insulin, glucagon, and the glucocortioids. Protein-calorie malnutrition is the result of a massive assault on homeostatic and adaptive mechanisms designed to conserve nutrients and preserve life. The pathogenesis of marasmus and kwashiorkor is discussed in the light of these adaptive mechanisms.
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PMID:Introductory remarks: nutrient, hormone, enzyme interactions. 80 21


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