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)

Tyrosine aminotransferase (TAT) induction by glucagon and dexamethasone in the liver of tumor-bearing chickens was studied and compared with induction in healthy animals. The transplantable tumor was caused by inoculation of cells from a cell line induced by MC29 avian leukosis virus. TAT was hardly detectable in tumor tissue of control and dexamethasone-treated chickens, but it was induced by glucagon to levels which were significant although very low when compared to those in host liver or the liver of non-tumor-bearing controls after glucagon treatment. Dexamethasone failed to induce TAT in host liver at 8 A.M. while it significantly indiced TAT in the normal liver at the same time of the day. Similar failure of TAT induction was not detectable when glucagon was used instead of dexamethasone. Furthermore, it was found that diurnal variations in basal and dexamethasone or glucagon-induced TAT levels are considerably mitigated in host liver as compared to those observed in the liver of healthy animals. The possible reasons for these findings are discussed.
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PMID:Tyrosine aminotransferase induction in normal and tumor-bearing chickens. 0 Mar 37

Primary cultures of rat liver parenchymal cells maintained as a monolayer in serum-free culture medium were used to investigate the characteristics of zinc accumulation in vitro. Liver parenchymal cells accumulated zinc by a temperature-dependent, saturable process that was inhibited by cyanide, azide, oligomycin, N-ethylmaleimide and iodoacetamide. Cadmium reversibly inhibited zinc accumulation in both serum-free and serum-containing media. Gel filtration chromatographic studies showed that recently accumulated intracellular zinc was present as a low molecular weight complex smaller than metallothionein, the zinc storage protein, but larger than individual amino acids. The quantity of zinc accumulated was affected by preincubation of the cells with various hor?ONES. Dexamethasone, prednisone and prednisolone each increased zinc uptake by 40--50% when either insulin or glucagon was also present. Hydrocortisone, cortisone and sex steroids did not influence zinc accumulation. Removal of the polypeptide hormones from the medium abolished the stimulatory effect of the synthetic glucocorticoid steroid hormones on zinc accumulation.
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PMID:Zinc uptake by isolated rat liver parenchymal cells. 7 27

At the 18th day of gestation and thereafter foetal rat liver explants in organ culture showed the competence to respond to dexamethasone by increased cystathionase activity, whereas the ability to respond to dibutyryl cyclic AMP or glucagon became evident at a later developmental stage (during the last 2 days prior to term). Simultaneous incubation with cycloheximide inhibited the stimulatory effect of these agents on foetal rat liver cystathionase activity in vitro. Dexamethasone and glucagon were both capable of increasing liver cystathionase activity both in newborn and 3-day-old animals in vivo.
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PMID:Induction of cystathionase in foetal rat liver explants. Effects of dexamethasone, N-6, O-2 -dibutyryladenosine 3,5 -monophosphate and glucagon in vitro. 16 57

Fat cells were preincubated for 2 h in the presence and absence of growth hormone (GH) and Dexamethasone (Dex) before the addition of increasing concentrations of either epinephrine, theophylline or glucagon and final incubation of the cells for an additional 5 minutes. GH and Dex increased by 85%, 28% and 72%, respectively, the cAMP levels reached in the sole presence of 10(-5)M epinephrine, 10(-2)M theophylline or 5 X 10(-5)M glucagon. An adenylate cyclase particulate preparation shows that epinephrine decreases Km from 2mM to 0.6 MM and increases Vmax and the strength of interaction value (n) from 0.91 to 1.75.
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PMID:Hormonal control of fat cells adenylate cyclase. 18 30

Rat hepatocytes have been studied in suspension culture for 10-h periods. Levels of extractable lactate dehydrogenase (LDH) have been measured in these hepatocytes at hourly intervals in order to note the balance between biosynthesis and degradation of this enzyme. Newly synthesized LDH has been measured by following the rate of incorporation of [3H]leucine into radiochemically pure LDH of high specific catalytic activity as isolated by a rapid affinity chromatographic procedure. The effects of the addition of physiological concentrations of the following hormones at the beginning of 10-h culture periods immediately following preparation of the hepatocytes by the collagen perfusion procedure have been recorded. The hormones triiodothyronine (T3), insulin, glucagon, and dexamethasone have been added singly or in combination. The culture medium has supplied variable amounts of these hormones in the 10% of fetal calf (or other) serum added, and the hepatocytes themselves have provided intracellular amounts of hormones. In addition to the added hormones, N6,O2'-dibutyryl cyclic AMP (Bt2cAMP) has also been studied. Control suspensions of hepatocytes show reproducible initial levels of extractable LDH which are maintained or slightly increased during 10 h. Such control systems also incorporate [3H]leucine into total protein and into highly purified LDH at reproducible rates during 10 h of incubation. The effects of added hormones on LDH lavels are as follows: (a) T3 causes about a 2-fold increase in LDH at 7 to 8 h in hepatocytes from young adult animals, an effect which is lowered in either younger or older animals or in thyroidectomized animals. (b) Insulin leads to a similar increase in LDH at 5 to 6 h and a falling off at 8 to 10 h. (c) Glucagon also causes an approximate doubling of the amount of extractable LDH during a 10-doubling of the amount of extractable LDH during a 10-h period. (d) Dexamethasone does not produce an increase. (e) Bt2-cAMP produces an effect indistinguishable from that of glucagon. Paired combinations of these hormones fail to produce an additive response in any case. The combinations of T3 plus dexamethaseon and insulin plus dexamethasone lead to significant reductions in levels of extractable LDH when compared to the single hormone effects cited above. With respect to rates of synthesis of total protein as measured by [3H]leucine incorporation, only glucagon, glucagon plus Bt2-cAMP, glucagon plus insulin, T3 plus Bt2cAMP, and T3 plus insulin produce significant increases during a 10-h period. However, when [3H]leucine incorporation into highly purified LDH is measured as an index of LDH biosynthesis, T3, insulin, and glucagon consistently increase the biosynthetic rates during a 10-h period. Bt2cAMP produces a smaller increase. Dexamethasone fails to produce any significant change when compared to controls. Paired combinations of hormones again do not produce any additive effect on LDH biosynthesis when the hormone producing the higher level is taken as the reference...
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PMID:Hormonal effects on the biosynthesis of lactate dehydrogenase in rat hepatocytes. 22 47

Parenchymal cells from adult rat liver, isolated by a collagenase perfusion technique, have been maintained in primary culture and a detailed study on carbohydrate metabolism carried out over the initial 48-hour culture period. The glucose concentration of the medium exerts a major influence on glycogen accumulation by the cells. Insulin, particularly at high glucose concentrations, stimulates glycogen biosynthesis, whereas glucagon prevents glycogen accumulation. Dexamethasone was without effect on glycogen metabolism. Glucose appears to stimulate glycogen accumulation by activation of glycogen synthetase enzyme. However, there is a gradual loss of synthetase activity throughout the culture period. Similar decreases in activity were noted for pyruvate kinase, aldolase and hexokinase. Glucose, insulin and dexamethasone were unable to prevent these decreases in enzyme activity. Foetal bovine serum contains fructose and this hexose appears to be the factor in serum which is responsible for the activation of glycogen accumulation in the presence of physiological glucose concentrations. The lactic acid content of the serum may also stimulate glycogen accumulation. In general, there is a gradual loss of the pattern of carbohydrate metabolism typical of differentiated hepatocytes during the culture period.
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PMID:Effects of hormones and serum on glycogen metabolism in adult rat liver parenchymal cell primary cultures. 40 98

Parenchymal cells from adult rat liver, cultured in perifused monolayers, increased the levels of urea-cycle enzymes between 15% and 60% in response to glucagon within 24 h. This stimulation was drastically enhanced by the simultaneous presence of dexamethasone, especially in the case of argininosuccinate synthetase and argininosuccinate lyase, which increased nearly threefold. Dexamethasone itself produced only negligible stimulation, but exerted a similar effect on the stimulatory action of glucagon, if it was exclusively present during 6 h prior to the glucagon treatment, suggesting a permissive action of this hormone. The effect of glucagon, particularly in the presence of dexamethasone, was mimicked by dibutyryl adenosine 3':5'-monophosphate, whereas epinephrine was ineffective. All stimulations induced by hormones or dibutyryl adenosine 3':5'-monophosphate were abolished by cycloheximide, suggesting the involvement of protein synthesis in the induction process. Using the usual culture technique with a discontinuous supply of medium no significant effect of glucagon and dexamethasone could be measured. This striking difference between both culture systems indicates that perifusion is the more adequate in vitro system for studies of the regulation of enzyme levels. Possible reasons for the failure of hormonal stimulation of urea-cycle enzymes in normal monolayer culture are discussed.
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PMID:Permissive effect of dexamethasone on glucagon induction of urea-cycle enzymes in perifused primary monolayer cultures of rat hepatocytes. 47 71

1. The administration of dexamethasone to intact fed rats by intraperitoneal injection for 3h was associated with a 6-fold increase in the time for which mitochondria subsequently isolated from the liver retain a given load of exogenous Ca2+. This effect was blocked by the co-administration of cycloheximide with dexamethasone, and partially blocked by the co-administration of puromycin. Daily administration of dexamethasone for periods of 4--7 days resulted in liver mitochondria that exhibited a decreased ability to retain exogenous Ca2+. 2. When glucagon was administered to fed adrenalectomized rats, the increase in mitochondrial Ca2+-retention time that results from the action of this hormone was reduced by 50% when compared with its effect on intact animals. The administration of dexamethasone to adrenalectomized rats partially restored the full effect of glucagon. 3. Dexamethasone did not enhance the effect of glucagon on mitochondrial Ca2+-retention time when administered to intact fed rats. 4. It is concluded that these data support the hypothesis that the hormone-induced modification of liver mitochondria, which results in an increase in the time for which exogenous Ca2+ is retained, involves a step in which new protein is synthesized.
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PMID:Interaction between glucocorticoids and glucagon in the hormonal modification of calcium retention by isolated rat liver mitochondria. 48 11

Adult rat hepatocytes have been previously isolated and maintained in monolayer culture, but attempts to stimulate DNA synthesis have been unsuccessful. Hormonal conditions are now described which induce DNA synthesis in cultured hepatocytes from partially hepatectomized rats. DNA synthesis was determined autoradiographically by the incorporation of [3H]thymidine into nuclei of morphologically distinct hepatocytes. Insulin (4-4000 nM) or epidermal growth factor (10 ng/ml) alone caused significant increases in the labeling index. The two hormones together acted synergistically to produce labeling indices of 35-50% on the third day of culture, compared with 2-7% in control cultures. The addition of glucagon (400 nM) further increased the labeling indes. Dexamethasone (80 ng/ml) inhibited DNA synthesis but, under certain conditions, enhanced cell attachment. Growth hormone and triiodothyronine had no significant effect on DNA synthesis. The mixture of epidermal growth factor, insulin, and glucagon also stimulated incorporation of [3H]thymidine into phenol-extracted DNA. Although DNA synthesis was stimulated, cell division occurred infrequently. These data suggest a prominent role for epidermal growth factor in promoting hepatic DNA synthesis by acting in concert with insulin and glucagon.
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PMID:Hormonal stimulation of DNA synthesis in primary cultures of adult rat hepatocytes. 106 71

Using medium with a low ionic strength, a low concentration of Ca2+ and Mg2+ and devoid of K+, we have measured Ca(2+)-ATPase activity in the homogenates of rat islets preincubated for 3 min with several hormones in the presence of 3.3 mmol glucose/l. Insulin secretion was also measured in islets incubated for 5 min under identical experimental conditions. Islets preincubated with glucose (3.3 mmol/l) and glucagon (1.4 mumol/l) plus theophylline (10 mmol/l), ACTH (0.11 nmol/l), bovine GH (0.46 mumol/l), prolactin (0.2 mumol/l) or tri-iodothyronine (1.0 nmol/l) have significantly lower Ca(2+)-ATPase activity than those preincubated with only 3.3 mmol glucose/l. All these hormones increased the release of insulin significantly. Dexamethasone (0.1 mumol/l) and somatostatin (1.2 mumol/l) enhanced the Ca(2+)-ATPase activity while adrenaline (10 mumol/l) did not produce any significant effect on the activity of the enzyme. These hormones decreased the release of insulin significantly. These results demonstrated that islet Ca(2+)-ATPase activity was modulated by the hormones tested. Their inhibitory or enhancing effect seemed to be related to their effect on insulin secretion; i.e. those which stimulated the secretion of insulin inhibited the activity of the enzyme and vice versa. Hence, their effect on insulin secretion may be due, in part, to their effect on enzyme activity and consequently on the concentration of cytosolic Ca2+. These results reinforce the assumption that Ca(2+)-ATPase activity participates in the physiological regulation of insulin secretion, being one of the cellular targets for several agents which affect this process.
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PMID:Correlation between Ca(2+)-ATPase activity of rat islet cells and insulin secretion. 135 67

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