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)

In a double-blind cross-over study we compared pituitary and methionine-free biosynthetic human growth hormone (P-hGH and B-hGH) with respect to pharmacokinetics and short-term metabolic effects in 9 hypopituitary children. They treated themselves for 4 weeks with 2 IU sc daily at 20.00 h. After admittance to hospital 2 IU was given: im the first day, and sc the second. They then switched over to the alternative preparation. The serum profiles of B- and P-hGH were identical. Comparing im and sc absorption, the latter was slower and resulted in smaller areas under the curves, indicating greater local degradation. Both preparations caused identical increases in somatomedin-C, but slightly more sustained after sc injection. Plasma glucose, plasma glucagon, and serum insulin fluctuated within normal ranges. The glucose profile pointed at a modest anti-insulin effect of hGH when given in the morning. The concentration in the blood of lactate, alanine, glycerol and B-OH-butyrate, and in serum of triglyceride, cholesterol and carbamide revealed no abnormalities with either hGH preparation. Finally, no development of anti-GH or E. coli polypeptide antibodies was seen. In conclusion, the pharmacokinetics and short-term metabolic effects of B-hGH and P-hGH were identical.
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PMID:Serum profiles and short-term metabolic effect of pituitary and authentic biosynthetic human growth hormone in man. A double-blind cross-over study. 331 60

Plasma concentrations of glucose, insulin, C-peptide, glucagon, cortisol and hGH were measured in burn patients (mean burn surface area 21 per cent) treated or not with ornithine alpha-ketoglutarate (OKG). An increase in basal values of glucose, insulin, C-peptide and cortisol was demonstrated in both groups, whereas hGH values diminished. OKG modified neither insulin nor hGH values 24 h after its enteral administration nor insulin levels within the first 4 h after intake. On the other hand, 60 min after enteral nutrition was restarted the hyperglycaemia observed in untreated subjects was reduced by OKG whereas a hyperinsulinism was observed in both groups. These results suggest that: (i) the anticatabolic/anabolic action of OKG in burn patients is not mediated by insulin or hGH, (ii) OKG probably induces an increase in glucose tolerance in burn patients, in whom there is a state of insulin resistance. The mechanism of this action requires further study.
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PMID:Influence of enterally administered ornithine alpha-ketoglutarate on hormonal patterns in burn patients. 332 11

Although early work implicated PRL as the pituitary factor inducing rat hepatic PRL receptors, recent studies indicated that GH, not PRL, was responsible. The roles for these two hormones were evaluated on rat hepatocytes cultured in serum-free medium supplemented with insulin (1 microgram/ml), epidermal growth factor EGF (25 ng/ml), glucagon (500 ng/ml), cholera toxin (2 ng/ml), hydrocortisone (10(-8) M), and transferrin (1 microgram/ml) and changed daily. Ovine (o) PRL, bovine (b) GH, or human (h) GH were introduced after 2-4 days of culture, and PRL receptors were measured by determining [125I]hGH binding in the presence and absence of excess oPRL in a total particulate fraction pretreated with 3 M MgCl2. The specific binding of hGH (% per 100 micrograms protein) decreased by 8- to 10-fold (female, 17.9 +/- 0.2% to 1.5%; male, 7.0 +/- 0.1% to 0.7%) after 3 days in culture. When added after 3 days, hGH induced PRL receptors in both female and male cells with the effect being more gradual in the latter. Induction occurred with 10 ng/ml hGH and was maximal [11- to 13-fold control] at 250-1000 ng/ml. bGH and oPRL also induced PRL receptors with maximal levels attained at 250-500 ng/ml oPRL (3- to 4-fold control). The combined addition of oPRL (300 ng/ml) and bGH (300 ng/ml) yielded levels of induction comparable to that seen with hGH. Although hormone treatment restored PRL receptor levels to those seen in male rats, the much higher levels of female rats were not attained. Treatment of hepatocytes with hGH, bGH, or oPRL affected neither cell number (through 10 days of culture) nor PRL receptor affinity. At supramaximal doses hGH, PRL, and bGH down-regulated PRL receptors, but this was particularly noticeable for oPRL and hGH. 17 beta-Estradiol and testosterone added to male and female hepatocytes simultaneously with hGH had little or no effect on receptor induction. We conclude that hepatic PRL receptors are induced by both PRL and GH, each acting through its own receptor. The failure to restore receptor levels to those seen in female rats attests to the importance of other modulators. This dual regulation of the PRL receptor explains the unusual potency of hGH which binds to both PRL and GH receptors.
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PMID:Prolactin (PRL) receptor induction in cultured rat hepatocytes: dual regulation by PRL and growth hormone. 334 48

The ob/ob mouse responds predictably to chronic treatment with large doses of pituitary GH with marked hyperglycemia and decreased glucose tolerance. The purpose of the present study was to characterize the metabolic alterations produced by GH that lead to this diabetogenic response in the ob/ob mouse in order to determine whether this animal might serve as a useful model for the study of the cellular mechanisms involved in the diabetogenic action of GH. Female ob/ob mice were treated sc for 3 days with either saline or 200 micrograms/day S-carboxymethylated human GH (RCM-hGH), a diabetogenic GH derivative lacking significant growth-promoting or insulin-like activities. Six hours before the start of the experiment, the animals were given a sc injection of 2 micrograms dexamethasone and deprived of food. RCM-hGH treatment produced marked increases in fasting blood glucose and plasma insulin concentrations, but had no effect on plasma glucagon or serum insulin-like growth factor I levels. It had no effect on liver glycogen level or in vitro hepatic glucose production in the absence or presence of pyruvate and lactate added to the incubation medium. By contrast, the in vitro stimulatory effects of insulin on [14C] glucose oxidation by isolated soleus muscle or segments of parametrial fat were greatly attenuated by RCM-hGH treatment, without changes in rates of basal glucose oxidation. This change in peripheral tissue responsiveness to insulin does not appear to involve glucose transport, since the in vitro stimulation by insulin of 3-O-[14C]methylglucose transport into isolated diaphragm muscle was not altered by RCM-hGH treatment. Moreover, the RCM-hGH-induced reduction in adipose tissue responsiveness to insulin does not appear to be mediated by a reduction in insulin binding, since [125I]iodoinsulin binding to adipocytes isolated from RCM-hGH-treated mice was similar to that to cells from saline-treated animals. Interestingly, the reduction in responsiveness to insulin seen with segments of adipose tissue from RCM-hGH-treated animals was not found with isolated adipocytes prepared from such tissue by collagenase digestion. These results suggest that the hyperglycemia and glucose intolerance produced in ob/ob mice by chronic GH treatment result primarily from increased peripheral tissue insulin resistance. Therefore, the ob/ob mouse provides a useful model to elucidate the cellular mechanism(s) of this aspect of the diabetogenic action of GH.
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PMID:Metabolic basis for the diabetogenic action of growth hormone in the obese (ob/ob) mouse. 354 65

Human growth hormone (hGH, 22 K) has an acute insulinlike effect not observed with the 20 K variant form of hGH that lacks amino acids 32 to 46 (deletion peptide, hGH32-46). The possibility that hGH32-46 increases insulin secretion was examined by infusing hGH32-46 (1.6 nmol/kg/min) or saline in a crossover design study into each of four conscious 16-hour-fasted dogs for three hours (0 to 180 minutes) following a 40-minute control period. At 90 minutes, plasma glucose was raised to and maintained at 170 mg/dL by glucose infusion for three hours (until 270 minutes). After a lag period of 30 minutes hGH32-46 infusion caused glucagon to increase (P less than 0.05) by 67 +/- 20 pg/mL and insulin tended to rise by 8 +/- 3 microU/mL. Saline tended to cause glucagon and insulin to decline slightly (by 17 +/- 8 pg/mL and 6 +/- 2 microU/mL); hGH32-46 increased (P less than 0.05) tracer determined (3H-3-glucose) glucose production by 1.13 +/- 0.66 mg/kg/min while saline had no effect. Neither treatment changed plasma glucose (100 +/- 4 to 105 +/- 3 mg/dL with hGH32-46; 99 +/- 4 to 99 +/- 4 mg/dL with saline). Induction of hyperglycemia (168 +/- 2 mg/dL) caused glucagon concentrations to fall similarly to about 50 pg/mL with and without hGH32-46. Insulin rose in both protocols but to a greater extent (P less than 0.05) with hGH32-46 (+67 +/- 18 v +35 +/- 13 microU/mL at 180 minutes).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The synthetic 32-46 fragment of human growth hormone increases insulin and glucagon levels in the conscious dog. 355 Mar 77

To determine whether increments in circulating GH concentrations within the physiological range would exert insulin-like as well as insulin-antagonistic actions in man and, if so, whether both actions would occur in hepatic and extrahepatic tissues, normal volunteers (n = 6) were infused with human GH (hGH; 100 ng/kg . min) for 6 h along with somatostatin (100 micrograms/h) to suppress insulin, glucagon, and hGH secretion and also with sufficient insulin (100 microU/kg . min) to maintain a constant plasma insulin level. During the final 2 h, glucose (2 mg/kg . min) was infused. In control studies, saline was infused instead of hGH. Infusion of hGH increased plasma hGH to 35 ng/ml. Plasma glucose decreased to 60 +/- 2 mg/dl compared to 67 +/- 1 mg/dl observed in control studies (P less than 0.05); this greater hypoglycemia was due to both greater suppression of hepatic glucose production (P less than 0.05) and greater augmentation of glucose clearance (P less than 0.05). These insulin-like effects of hGH were no longer evident after 2 h. Subsequently, when glucose was infused, plasma glucose increased to 133 +/- 4 mg/dl compared to the 104 +/- 6 mg/dl observed in control studies (P less than 0.01). This greater hyperglycemia was due to both impaired suppression of hepatic glucose production (P less than 0.001) and decreased glucose clearance (P less than 0.01). These results indicate that physiological increments in plasma hGH cause both insulin-like and insulin-antagonistic effects in man and that these actions occur in hepatic as well as extrahepatic tissues. The insulin-like actions of hGH are transient.
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PMID:Physiological concentrations of growth hormone exert insulin-like and insulin antagonistic effects on both hepatic and extrahepatic tissues in man. 611 64

The metabolic effects of Somatostatin (SRIF) added to insulin were studied in five diabetic subjects with ketonuria induced by insulin withdrawal. In the same patients ketonuria was induced twice and they were randomly treated with insulin alone (10 units as a bolus + infusion 1 U/hr) until euglycemia was reached or with insulin (same criteria) + cyclic SRIF (100 micrograms/ hr i.v.) for ten hours. Treatment with insulin + SRIF significantly reduced both peak and cumulative hGH levels in contrast to insulin alone. Moreover, the percent decrease of glucagon was significantly greater during insulin + SRIF than with insulin alone. On the other hand, the beta-OH levels fell significantly more during insulin + SRIF than during insulin alone. Finally the prolactin plasma levels fell considerably when combined treatment was given but not when just insulin was administered.
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PMID:Effects of somatostatin on established induced ketosis. 612 85

Specific GH binding sites in isolated rat adipocytes have been partially characterized. Binding of [125I]iodohuman(h)GH was rapid, reversible, and was time and temperature dependent. Maximum specific binding occurred at 37 C in approximately 40 min at pH 7.4. Bound labeled hGH was rapidly dissociable, with the addition of excess unlabeled hormone. Specific binding is inhibited by as little as 1.0-1.5 ng/ml hGH, and 50% inhibition was obtained with 15-20 ng/ml. No inhibition was observed with insulin, glucagon, hPRL, or hTSH at concentrations up to 1 micrograms/ml. This receptor does not discriminate between monkey GH, rat GH, bovine GH, and porcine GH. Specific binding varied linearly with cell concentration. Scatchard analysis revealed linear plots with a Ka of approximately 10(9) M-1 and 15,000 sites per cell. There was less than 15% degradation of [125I]iodo-hGH over 90 min at 37 C. There was a striking increase in [125I]iodo-hGH binding to adipocytes at pH 4.85. Scatchard analysis of binding at pH 4.85 revealed a curvilinear plot with an apparent increase of sites per cell from 15,000 to 60,000, and a modest increase in the apparent affinity constant of the high affinity, low capacity sites using the two-compartment model for curvilinear plots. The GH receptors in rat fat cells displayed no ability to bind labeled hPRL or human placental lactogen, consistent with minimal recognition of lactogenic peptides by these receptors. Thus, the rat adipocyte contains specific binding sites for GH that fulfill the major criteria for receptor binding. The presence of such receptors in these cells may facilitate the study of GH receptors in relation to the biological effects of the hormone on adipose tissue in various metabolic settings.
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PMID:Growth hormone receptors in isolated rat adipocytes. 627 42

Experiments were performed to determine whether the TSH receptor-adenylate cyclase (AC) system in benign and malignant thyroid neoplasms differs from the TSH receptor-AC system in normal thyroid tissue removed from the same patients. TSH binding and AC assays were performed using the same in vitro conditions. TSH binding was rapid, reversible, saturable, and hormone specific in particulate fractions from both normal and neoplastic thyroid tissue. A positive correlation existed between the equilibrium constants for [125I]bovine ([125I]bTSH) TSH binding and the concentration of TSH required to activate AC, suggesting that binding sites were coupled to AC in neoplastic thyroid tissue. Mean values for dissociation constants (Kd1 and Kd2), capacity (site 2), as determined by Scatchard analysis, and nonspecific binding (NSB) for the TSH receptors were lower in neoplastic thyroid. Some normal thyroid tissue appeared to lack a high affinity site, and some tumors lacked a low affinity binding site. Hormone specificities (bTSH, human (h) TSH, hLH, hFSH, hGH, hACTH, and glucagon) in normal thyroid and neoplastic tissue were virtually identical. hFSH, hACTH, hGH, and glucagon failed to inhibit [125I]bTSH binding or stimulate AC in either normal or neoplastic thyroid tissue, whereas hLH inhibited [125I]bTSH binding and stimulated AC, but required 10- to 100-fold higher concentrations than hTSH or bTSH. The specific binding and NSB of [125I]bTSH in both normal and neoplastic thyroid tissue was highest at pH 7.0 and lowest at pH 8.3. In contrast to bTSH binding, TSH stimulation of AC was lowest at pH 7.0 in both normal and neoplastic tissues and highest at pH levels of 7.5-8.0. TSH binding and TSH stimulation of AC activity were highest in the absence of NaCl and decreased progressively as the salt concentration was increased in both normal and neoplastic thyroid tissues. Increasing the sucrose concentration and, thus, the osmolarity of the system had a minimal effect on the binding of [125I]bTSH. Preincubation with ammonium sulfate did not significantly influence binding. Basal AC activity and the AC response to TSH were greater in neoplastic thyroid than in normal tissues. These studies demonstrate that changes in salt concentration and pH affect the TSH receptor-cyclase system in a comparable fashion in normal and neoplastic thyroid tissues. The discriminatory properties of the TSH receptor are also maintained in thyroid neoplasms. Thyroid tumors, however, have a higher affinity for TSH and display a greater AC response to TSH than normal thyroid tissue.
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PMID:Characterization of the thyrotropin receptor-adenylate cyclase system in neoplastic human thyroid tissue. 630 32

Oral glucose tolerance, plasma insulin and basal levels of glucagon, hGH, hPRL, hPL, TSH, T4, T3, thyroxine-binding globulin (TBG), cortisol, corticosteroid-binding globulin (CBG) and estriol were measured in 23 normal pregnant women in late gestation (31 +/- 0.4 weeks of pregnancy). Twelve of these subjects could be re-examined 14 +/- 2 weeks postpartum. Blood glucose was lower basal and after glucose load (100 g) in the pregnant group. Fasting plasma insulin and glucose-induced insulin release were higher in pregnancy. The insulinogenic index and the beta cell response were significantly greater antepartum, while peripheral insulin activity was unchanged. The insulin:glucagon ratio as well as TSH and hGH showed no significant differences between ante- and postpartum values. However, T4, T3, TBG, cortisol, CBG, estriol, hPRL and hPL were significantly higher during gestation than after delivery. T4:TBG and T3:TBG ratios were much lower antepartum, while the cortisol:CBG ratio was comparable ante- and postpartum. To our knowledge this is the first report in which such an extensive hormonal and metabolic analysis was performed in the same women ante- and postpartum. It could be shown that glucose tolerance is not worsened during pregnancy in healthy subjects. The higher gestational insulin values are discussed with respect to the various significant hormonal changes.
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PMID:Hormonal profile and glucose tolerance in late pregnancy and postpartum. 635 85

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