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)

Cortisol stimulates somatotrope differentiation in vitro. T3 and/or glucagon may also be involved. Fetal rat pituitary primordia were explanted at 14 days gestation and cultured for 7 days in medium supplemented with cortisol (50-500 nM), and either T3 (0.67 nM) or glucagon (0.5 nM). Also, to determine the time of first appearance of the somatotropes, explants were cultured 4, 5, or 6 days with cortisol alone. Immunoreactive somatotropes were detected by immunohistochemistry, and their size and number were estimated for each medium. GH was measured by RIA in explants and media. Immunoreactive somatotropes first appear at 18-19 days gestation. Their size and number depend on cortisol concentration: no cells at 50 nM, a few small ones at 100 nM, and many large ones at 250-500 nM. This progression was reflected by RIA of GH in explants and media, although small quantities were detected with 50 nM. The effect of T3 was only visible with a low dose of cortisol. With 100 nM cortisol, it increased the size and number of cells. Differentiation was also triggered with 50 nM cortisol plus T3. RIA detected significantly higher GH content and secretion after T3 stimulation. The decreases in number, size, and GH secretion and content elicited by glucagon were not significant, probably due to the high variability. Both techniques used provide similar information on somatotrope differentiation: stimulation by cortisol alone, or alternatively by a synergistic action between cortisol and T3.
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PMID:Differentiation of fetal rat somatotropes in vitro: effects of cortisol, 3,5,3'-triiodothyronine, and glucagon, a light microscopic and radioimmunological study. 304 69

The role of the exercise-induced increment in epinephrine was studied in five adrenalectomized (ADX) and in six normal dogs (C). Experiments consisted of an 80-min equilibration period, a 40-min basal period, and a 150-min exercise period. ADX were studied with epinephrine replaced to basal levels during rest and to increased levels during exercise to simulate its normal rise (HE) and on a separate day with epinephrine maintained at basal levels throughout the study (BE). Cortisol was replaced during rest and exercise in ADX so as to simulate the levels seen in C. Glucose was infused as needed in ADX to maintain the glycemia evident during exercise in C. Glucose production (Ra) and utilization (Rd) were assessed isotopically. In C, epinephrine had risen by 95 +/- 25 pg/ml by the end of exercise. In HE, the increment in epinephrine (117 +/- 29 pg/ml) was similar to that seen in C, whereas in BE epinephrine fell by 18 +/- 9 pg/ml. Basal norepinephrine levels were 139 +/- 9, 260 +/- 25, and 313 +/- 33 pg/ml in C, HE, and BE, respectively. In response to exercise, norepinephrine increased by nearly twofold in all protocols. Basal and exercise-induced changes in plasma glucagon and insulin were similar in C and ADX. Ra increased similarly in C (5.3 +/- 0.6 mg.kg-1.min-1) and HE (4.9 +/- 0.6 mg.kg-1.min-1). In BE, Ra rose normally for the initial 90 min but then declined resulting in a rise of only 2.9 +/- 0.5 mg.kg-1.min-1 after 150 min of exercise.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolic role of the exercise-induced increment in epinephrine in the dog. 305 3

Blood glucose was significantly decreased by insulin (4 I.U./kg). Glucagon (1 mg/kg) and Cortisol (5 mg/kg) administration produced a significant hyperglycaemia. Insulin administration did not modify liver glycogen levels. Glucagon showed a marked liver glycogen mobilization. Cortisol stimulated liver glycogen deposition. Insulin and Glucagon showed a significant inverse effect on gluconeogenesis from (U-14C)glutamate, decreasing and increasing 14C-glucose formation respectively. Hormonal treatments did not influence the very low levels of incorporation of (U-14C)glutamate into liver and muscle glycogen.
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PMID:Hormonal effects on gluconeogenesis from (U-14C)glutamate in rainbow trout (Salmo gairdneri). 353 1

There is increasing evidence that stress hormones and neurotransmitters may represent an information channel between the immune, endocrine, and central nervous systems. The goal of this investigation was to determine the in vitro effect of selected stress hormones on neutrophil and lymphocyte function using leukocytes from healthy volunteers. The following hormones were tested using a complete dose response curve including dosages within the physiological range; cortisol, epinephrine, norepinephrine, and glucagon. Cortisol did not affect neutrophil function, but did suppress lymphocyte blastogenesis. The catecholamines, epinephrine, and norepinephrine inhibited only neutrophil chemotaxis, while glucagon impaired both neutrophil chemotactic and bactericidal activity. When the individual hormones were combined into hormone cocktails, the inhibitory effect of both epinephrine and glucagon on neutrophil function was lost, while the inhibitory effect of cortisol on lymphocyte blastogenesis was greatly reduced. In fact, incubation of neutrophils in the stress hormone cocktail resulted in the neutrophils becoming hypermetabolic. Although the in vitro effects of these hormones on neutrophil and lymphocyte function do not fully correlate with the in vivo effect of trauma on immune function, these studies do support the general concept that the stress hormones may represent a link between the immune and endocrine systems.
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PMID:Stress hormones modulate neutrophil and lymphocyte activity in vitro. 366 9

Male Sprague-Dawley rats were weaned on postnatal d 17 to isocaloric diets in which fat supplied either 10% (PWC group) or 65% (PWF group) of the available energy. Compared with animals left with the dams to be weaned spontaneously to the maternal low fat diet (SWC group), the PWC rats showed early increases in the activities of liver glucose-6-phosphate dehydrogenase (G-6-PD) and malic enzyme (ME). The activity of G-6-PD was diminished in the PWF group, but the early rise in liver ME activity attendant on premature weaning was not prevented. Premature weaning, regardless of diet, decreased plasma glucagon levels within 1 d. Hydrocortisone failed to evoke hepatic ME activity in SWC rats; similarly, corticosterone and insulin, separately or together, did not affect ME activity in SWC rats. However, triiodothyronine evoked hepatic ME appearance within 1 d. Glucagon suppressed the expected rise in hepatic ME activity in PWC rats; in contrast, injection of glucagon antiserum into SWC rats led to the appearance of liver ME within 2 d. The data indicated that interaction among diet, glucagon and thyroid hormones may be part of the mechanism regulating the first appearance of ME in rat liver.
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PMID:Effects of diet and selected hormones on the activities of hepatic malic enzyme and glucose-6-phosphate dehydrogenase in infant, prematurely weaned rats. 388 38

Plasma membrane sacs of isolated rat fat cells (ghots) possess an adenyl cyclase system, which is activated by lipolytic hormones of disparate molecular structure, including adrenocorticotropin (ACTH), glucagon, and epinephrine. Previous studies indicated that distinctive selectivity units for individual hormones are coupled to the same unit of adenyl cyclase in the fat cell membrane. The present study has shown that ghost cyclase from adrenalectomized and hypophysectomized rats exhibits a striking reduction in response to ACTH, the stimulatory effects of epinephrine, glucagon, or fluoride being unchanged. Pretreatment of adrenalectomized, hypophysectomized, sham operated, or intact rats with the synthetic glucocorticoid, dexamethasone, selectively increased the ACTH response in ghost cyclase preparations. Cortisol, like dexamethasone, increased the ACTH response in ghosts from adrenalectomized rats; 11-deoxycorticosterone was ineffective. The dexamethasone effect to enhance the ACTH response is blocked by actinomycin D or cycloheximide. The present results show that stimulation of rat fat cell adenyl cyclase by ACTH involves a distinctive molecular entity, which can be clearly differentiated from adenyl cyclase in the membrane as well as from the selectivity sites for epinephrine and glucagon. The data indicate that the biosynthesis of the component required for ACTH stimulation of ghost cyclase-either an ACTH selectivity unit or specific coupling factor-is induced by glucocorticoids at the level of gene regulation.
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PMID:Glucocorticoid regulation of ACTH sensitivity of adenyl cyclase in rat fat cell membranes. 431 84

The administration of glucagon to rats causes a marked increase in the phosphorylation of a specific serine residue in lysine-rich (f1) histone of liver during a one-hour period following the administration of the hormone. It is proposed that histone phosphorylation is the mechanism by which glucagon, and perhaps other hormones whose actions are mediated by adenosine 3',5'-cyclic phosphate (cyclic AMP), induce RNA synthesis in target tissues. The incorporation of (32)P-phosphate into lysine-rich histone is determined by isolation of a tryptic peptide which contains the phosphorylated serine residue. This peptide is identical to the major tryptic phosphopeptide obtained from lysine-rich histone after phosphorylation in vitro by a purified cyclic AMP-dependent liver histone kinase preparation; the partial sequence Lys-Ala-SerPO(4)(Thr,Ser,Glu,Pro(2),Gly,Val,Ile,Leu)Lys has been determined for the peptide. Hydrocortisone and adrenocorticotrophic hormone do not cause a detectable increase in histone phosphorylation in liver. However, insulin, which like glucagon induces an actinomycin sensitive synthesis of liver enzymes, also causes increased histone phosphorylation.
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PMID:Phosphorylation of liver histone following the administration of glucagon and insulin. 431 47

1. The administration of triamcinolone (19-190mug/animal) to postnatal rats increased the arginine synthetase system activity 1.2-2.5-fold above control values 24h after exposure to the hormone. Cortisol (hydrocortisone), however, increased the arginine synthetase system activity only when larger (190mug/animal) or repeated daily doses were given. Glucagon (100mug/animal) stimulated arginine synthetase system activity only after the second postnatal day. None of these agents increased the activity in 19.5-21.5-day foetuses after intrauterine administration. 2. The viability of foetal rat liver explants maintained in organ culture for up to 54h was validated both by ultramicroscopic examination and by incorporation of radioactive leucine and orotic acid. 3. In organ cultures of foetal rat liver explants (18.5 days to term), triamcinolone (20mug/ml of medium) evoked a 2.8-4.3-fold increase after 24h of incubation. This increase was completely inhibited by actinomycin D (25mug/ml) or cycloheximide (10mug/ml). Cortisol (5-50mug/ml) or glucagon (0.067-67mug/ml) also increased the arginine synthetase system activity above the respective control values, but there was no increase in activity with insulin (0.05-0.25i.u./ml). 4. Maximum concentrations of glucagon (67mug/ml), dibutyryl cyclic AMP (6-N,2'-O-dibutyryladenosine 3':5'-cyclic monophosphate) (0.1mm) and triamcinolone (20mug/ml) incubated for 24h with foetal rat liver explants each produced between a two-and three-fold increase in the activity of the arginine synthetase system. Combinations of maximum amounts of glucagon and the cyclic nucleotide did not produce a greater effect than either agent alone. However, the combination of dibutyryl cyclic AMP with triamcinolone appeared to produce somewhat less than additive effects. 5. The effects of the cyclic nucleotide and triamcinolone were evident after 12h of incubation and increased steadily throughout the 24h of observation. This time-course of increased enzyme activity is very much slower than that reported for the induction of other enzymes in explant cultures of foetal rat liver.
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PMID:Influence of glucagon, 6-N,2'-O-dibutyryladenosine 3':5'-cyclic monophosphate and triamcinolone on the arginine synthetase system in perinatal rat liver. 434 87

1. The concentrations of liver glycogen and plasma d-glucose were measured in caesarian-delivered newborn rats at time-intervals up to 3h after delivery after treatment of the neonatal rats with glucagon, dibutyryl cyclic AMP, cortisol or cortisol+dibutyryl cyclic AMP. Glycogenolysis was promoted by glucagon or dibutyryl cyclic AMP in the third hour after birth but not at earlier times. Cortisol and dibutyryl cyclic AMP together (but neither agent alone) promoted glycogenolysis in the second hour after birth, but no hormone combination was effective in the first postnatal hour. 2. The specific radioactivity of plasma d-glucose was measured as a function of time for up to 75 min after the intraperitoneal injection of d-[6-(14)C]glucose and d-[6-(3)H]glucose into newborn rats at delivery and after treatment with glucagon or actinomycin D. Glucagon-mediated hyperglycaemia at this time was due to an increased rate of glucose formation and a decreased rate of glucose utilization. Actinomycin D prevented glucose formation and accelerated the rate of postnatal hypoglycaemia. 3. The specific radioactivity of plasma l-lactate and the incorporation of (14)C into plasma d-glucose was measured as a function of time after the intraperitoneal injection of l-[U-(14)C]lactate into glucagon- or actinomycin D-treated rats immediately after delivery. The calculated rates of lactate formation were unchanged by either treatment, but lactate utilization was stimulated by glucagon administration. Glucagon stimulated and actinomycin D diminished (14)C incorporation into plasma d-glucose. 4. The factors involved in the initiation of glycogenolysis and gluconeogenesis in the rat immediately after birth are discussed.
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PMID:Glucose metabolism in the newborn rat. Hormonal effects in vivo. 435 15

Quantitative stereological methods have been adapted for the measurement of the volume of liver attributable to parenchymal, hematopoietic, and Kupffer cells and for the measurement of the relative and absolute number (per unit volume) of these cell types and the mean volume of the parenchymal cell. These morphological parameters are the main ones for interpreting the biochemical differentiation of liver. Quantitative changes in these parameters, in rat liver between the 15th day of gestation and adult life, are presented. Despite the large number of hematopoietic cells, the parenchymal cells fill more than half of the liver volume between the 15th and 18th days of gestation and 0.85 of the liver volume at term. The fraction of liver volume occupied by Kupffer cells is never more than 0.02; the number of Kupffer cells per cubic centimeter increases less than twofold between fetal and adult life. The mean volume of individual parenchymal cells undergoes a threefold rise during late fetal life, declines in the neonatal period, and doubles between the 12th and 28th postnatal days. With the morphometric data obtained, it is impossible to convert enzyme concentrations (units per gram, determined in homogenates of whole liver) to enzyme amounts per unit volume of parenchymal or hematopoietic tissue or per individual cell of either type. In late fetal liver, only rises in enzyme concentration less than twofold may be attributed to the enrichment of parenchymal tissue at the expense of hematopoietic elements. The sudden upsurge, by more than twofold, of hepatic enzymes of the late fetal cluster (and also of the neonatal and late suckling cluster) reflects rises per parenchymal mass and per parenchymal cell. Thyroxine and glucagon, the administration of which to fetal rats promotes enzyme differentiation in liver, are without appreciable effect on the cytological parameters studied. Hydrocortisone accelerates the involution of hematopoietic tissue in fetal liver. Enzymes that are diminished by prenatal injection of hydrocortisone may be concentrated in hematopoietic cells.
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PMID:Cytomorphometry of developing rat liver and its application to enzymic differentiation. 440 Apr 51


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