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)

The purpose of such studies is to identify the hormones that act on the developmental formation of individual urea cycle enzymes, namely argininosuccinate synthetase, argininosuccinate lyase and arginase in the rat fetal liver. The development of argininosuccinate synthetase activity which is completely blocked by the suppression of glucocorticoids in the fetal liver is affected by neither glucagon nor thyroxine. The activity of argininosuccinate lyase which is never changed by the suppression or addition of glucocorticoids, is under the influences of glucagon and thyroxine at a late fetal period and the enzyme activity can be precociously induced in utero by injection of dibutyryl cyclic AMP to fetuses. Cortisol has been shown to precociously stimulate fetal liver arginase activity after an intraperitoneal injection, but the rise in activity at the late fetal period is not completely prevented by suppression of glucocorticoid and it seems that glucagon and thyroxine may also promote its developmental formation just before birth.
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PMID:Hormonal regulation of three urea cycle enzymes in rat fetal liver. 21 56

All five urea cycle enzymes of rat liver increased in activity 48 h after subcutaneous administration of crystalline zinc glucagon to male rats and remained elevated after 7 days of continuous glucagon infusion. The maximum ratios of enzyme activities over those of controls were 2.0 for carbamyl phosphate synthetase, 1.3 for ornithine transcarbamylase, 2.7 for argininosuccinate synthetase, 3.2 for argininosuccinase, and 2.2 for arginase. Actinomycin D or puromycin prevented these responses to glucagon. The increase in arginase activity after zinc glucagon treatment was matched by an increase in immunoprecipitable enzyme. All five enzymes were induced by physiological plasma levels of glucagon. Tube feeding of casein hydrolysate for 2 days increased all five enzyme activities 1.5- to 2.2-fold and resulted in plasma glucagon levels similar to those required for induction by exogenous glucagon. Thus, glucagon is an inducer of the entire urea cycle in rat liver and plays a role in the induction of the cycle by protein feeding.
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PMID:Induction of urea cycle enzymes of rat liver by glucagon. 63 99

Adrenalectomized and intact rats were given constant high-dose infusions of glucagon, 0.3 mg/kg per day for 7 days, with or without low-dose dexamethasone, 0.01 mg/kg daily, to test whether glucocorticoids potentiate glucagon induction of the 5 urea cycle enzymes as they do in cultured rat hepatocytes. Glucagon did not induce any of the urea cycle enzymes in adrenalectomized Sprague-Dawley rats and only induced argininosuccinate lyase (EC 4.3.2.1) in adrenalectomized inbred Wistar-Furth rats. Dexamethasone alone induced arginase in adrenalectomized and in intact Wistar-Furth rats and restored the other enzymes to normal levels in adrenalectomized rats. In intact Wistar-Furth rats, the combination of hormones gave synergistic increases of all 5 enzymes over the responses to each hormone alone, but in adrenalectomized rats the combination was only additive or less than additive compared with the sum of single hormone responses. The lack of synergism between the two hormones in adrenalectomized rats suggest that other factors play a role in glucagon induction of this cycle.
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PMID:Dexamethasone and glucagon cause synergistic increases of urea cycle enzyme activities in livers of normal but not adrenalectomized rats. 180 64

Foetal hepatocytes obtained from rats at different stages were cultured in order to investigate the inducibility of the five urea-cycle enzymes by glucagon and dibutyryl cyclic AMP (Bt2cAMP). When 18.5-day-old hepatocytes were cultured for 3 days with 10(-7) M glucagon, the activities of carbamoyl phosphate synthetase (CPS), argininosuccinase (ASL) and arginase were increased by 1.4-, 1.8- and 1.9-fold, respectively, as compared to controls. These effects were mimicked by 10(-4) M Bt2cAMP, but the activities of ornithine transcarbamylase (OTC) and argininosuccinate synthetase (ASS) were never changed by the addition of these compounds. Hepatocytes cultured at earlier stages were not responsive to glucagon unless dexamethasone was added simultaneously, suggesting that this steroid might induce some steps necessary for glucagon action. Bt2cAMP was effective as early as day 16.5 without requiring the presence of steroids. In addition, the effect of the cyclic nucleotide appeared additive or synergistic with that of dexamethasone. The simultaneous addition of actinomycin D did not affect the glucagon-induced increase in enzyme levels, thus suggesting a post-transcriptional effect of the hormone on the foetal enzyme activities. Insulin itself did not have any effect on the basal level of the enzyme activities and had only a moderate inhibitory effect on glucagon-induced ASL activity. This slight effect of insulin is in contrast with the marked inhibitory effect of dexamethasone on this enzyme activity that we described previously.
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PMID:Induction of the five urea-cycle enzymes by glucagon in cultured foetal rat hepatocytes. 332 26

The levels of the five enzymes of the urea cycle were measured in normal 5-week-old rats, in a transplantable hepatoma, and in the livers of tumor-bearing rats (host livers). The levels of all five enzymes were much lower in the hepatoma, although there was no exact correlation of the decrease in levels. In host livers, the levels were higher than in the tumors, but lower than in normal liver. The levels of all five urea cycle enzymes were positively correlated with dietary protein content in normal livers, in hepatomas, and in host livers. In fact, the hepatomas showed the greatest changes in response to diet. On all diets, the levels in host liver remained below those in normal liver, indicating that the decreased level was probably not due to preferential utilization of nutrients by the tumor. The levels of urea cycle enzymes in normal liver were not altered by a single injection of glucocorticoid, glucagon, or dibutyryl cyclic adenosine 3':5'-monophosphate. By contrast, in hepatoma, the levels were usually significantly elevated by the same treatment. In addition, the levels in host livers were always significantly elevated and were usually above those in normal animals, whether the latter were hormone treated or not. Injection of plasma from tumor-bearing rats into normal animals produced a decrease in the levels of all five enzymes; if glucagon was injected together with the plasma, large increases in levels were observed. This result supports the concept of a humoral factor produced by the tumor which affects the levels and the inducibility of urea cycle enzymes in host livers. Autopsied human primary hepatomas also showed levels of urea cycle enzymes below those in normal livers with host livers having intermediate values. A cell line derived from a human hepatoma showed induction of arginase by glucocorticoid in culture; in this, it resembled a cell line of the rat hepatoma. Tyrosine aminotransferase in human hepatoma cells was not induced by glucocorticoid; in this, it differed from the rat hepatoma cells where induction of this enzyme was observed.
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PMID:Regulation of urea cycle enzymes in transplantable hepatomas and in the livers of tumor-bearing rats and humans. 626 64

In the present study we examined the in vivo effects of glucocorticosteroids and glucagon on the developmental formation of the individual urea cycle enzymes argininosuccinate synthetase, argininosuccinase, and arginase during the late fetal period. In particular, addition of exogenous glucagon caused a rise in argininosuccinase and arginase activities in the livers of rat fetuses at term but not at earlier stages. Glucagon produced a rise in argininosuccinase activity earlier if fetuses were previously treated with cortisol. When fetuses were deprived of corticosteroid (hypophysectomy in utero), glucagon no longer promoted the argninosuccinase activity, indicating that adrenal glucocorticoids are required for normal enhancement of the enzyme activity by glucagon. Dibutyryl cAMP was still effective in hypophysectomized fetuses. Results obtained by injected combinations of inducers indicated that a glucocorticosteroid-glucagon interaction might be involved in the regulation of argininosuccinate synthetase and argininosuccinase. No synergistic action was found on arginase activity in vivo.
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PMID:Effects of glucocorticosteroids and glucagon on argininosuccinate synthetase, argninosuccinase, and arginase in fetal rat liver. 627 18

Fetal rat hepatocytes were isolated and cultured in primary culture to investigate activity changes of arginase under defined conditions. In hormone-free medium, cultured cells maintained the enzyme activity at levels equal to that of freshly isolated cells for at least 4 d. Arginase activity could be induced by dexamethasone in hepatocytes isolated from 16.5-d-old fetuses although cells were competent to respond to glucagon only at the stage of 18.5 d. The combination of the two hormones induced greater levels of arginase activity than the individual compounds. These findings indicate that glucocorticoid and glucagon receptors appear early and sequentially before birth and reveal that cultured fetal hepatocytes provide a suitable system for the investigation of the role of hormones in the initiation of enzyme synthesis.
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PMID:Precocious induction of arginase in primary cultures of fetal rat hepatocytes. 632 26

The role of glucocorticosteroid and thyroid hormone and of glucagon and insulin in the pre- and postnatal developmental formation of carbamoyl-phosphate synthase, ornithine transcarbamoylase, arginase, glutamate dehydrogenase, tyrosine aminotransferase, glucose-6-phosphatase, hexokinase and glucokinase activities in rat liver was investigated. Glucocorticosteroids and a low insulin/glucagon ratio always stimulate formation of carbamoyl-phosphate synthase, ornithine transcarbamoylase, arginase, glutamate dehydrogenase, tyrosine aminotransferase and glucose-6-phosphatase, while glucocorticosteroids and a high insulin/glucagon ratio stimulate formation of glucokinase. Thyroid hormone stimulates the formation of carbamoyl-phosphate synthase, arginase and tyrosine aminotransferase only before birth, whereas it stimulates the formation of glutamate dehydrogenase and glucose-6-phosphatase both before and after birth. Ornithine transcarbamoylase activity is depressed after thyroid-hormone treatment before and after birth. DNA content is always decreased by glucocorticosteroids and increased by thyroid hormone. The effect of these hormones on hexokinase is complex, probably due to different responses of the constitutive isozymes. With the exception of the effects of thyroid hormone on carbamoyl-phosphate synthase, arginase and tyrosine aminotransferase before birth, which may be indirect, the responses of enzyme activities and DNA content to treatment with glucocorticosteroid hormones, glucagon, insulin and thyroid hormone are qualitatively the same in fetuses, neonates, sucklings, weanlings and adults. Thus, the developmental profiles of the enzyme clusters reflect the changing levels of the relevant hormones. The enzymes that are stimulated by glucocorticosteroids and the insulin/glucagon ratio show increases in enzyme activity perinatally and around weaning, and relatively low activities in between, while those enzymes that are additionally stimulated by thyroid hormone differ in exhibiting relatively high activities between birth and weaning.
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PMID:Multihormonal control of enzyme clusters in rat liver ontogenesis. II. Role of glucocorticosteroid and thyroid hormone and of glucagon and insulin. 702 60

Induction of the mRNAs of the five urea cycle enzymes by glucagon and dexamethasone was studied in cultured rat hepatocytes to define mechanisms which coordinate the increases in the enzyme activities by these hormones. The transcription rate for arginase mRNA increased 9-fold in 7 h, the mRNA level 90-fold in 28 h, and the arginase activity 1.5-fold at 48 h, suggesting that induction is due primarily to stabilization of mRNA. Arginase mRNA induction was minimal with either hormone alone, combined hormones were synergistic, and cycloheximide pretreatment did not prevent the rise in mRNA levels. Carbamyl phosphate synthetase mRNA levels responded synergistically to the combined hormones and peaked 240-fold above controls at 24 h although activity only increased 1.4-fold at 48 h. Argininosuccinate lyase and synthetase mRNAs were induced by an increased transcriptional rate, were not induced by single hormones, responded synergistically to combined hormones, and showed a partial blockage of mRNA induction by cycloheximide. The ornithine transcarbamylase mRNA level was not increased by these hormones although activity increased 1.3-fold, suggesting stabilization of the enzyme. Thus glucagon and dexamethasone induce the urea cycle enzymes by three different mechanisms: transcriptional control of mRNA in argininosuccinate synthetase and lyase, stabilization of mRNA in carbamyl phosphate synthetase and arginase, and protein stabilization of ornithine transcarbamylase.
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PMID:Coordinate induction of the urea cycle enzymes by glucagon and dexamethasone is accomplished by three different mechanisms. 846 Sep 37

The rates of oxidation of arginine and ornithine that occurred through a reaction pathway involving the enzyme ornithine aminotransferase (EC 2.6.1.13) were determined using (14)C-labeled amino acids in the isolated nonrecirculating perfused rat liver. At physiological concentrations of these amino acids, their catabolism is subject to chronic regulation by the level of protein consumed in the diet. (14)CO(2) production from [U-(14)C]ornithine (0.1 mM) and from [U-(14)C]arginine (0.2 mM) was increased about fourfold in livers from rats fed 60% casein diets for 3-4 days. The catabolism of arginine in the perfused rat liver, but not that of ornithine, is subject to acute regulation by glucagon (10(-7) M), which stimulated arginine catabolism by approximately 40%. Dibutyryl cAMP (0.1 mM) activated arginine catabolism to a similar extent. In retrograde perfusions, glucagon caused a twofold increase in the rate of arginine catabolism, suggesting an effect of glucagon on arginase in the perivenous cells.
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PMID:Catabolism of arginine and ornithine in the perfused rat liver: effect of dietary protein and of glucagon. 1071 May 7


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