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)

A membrane preparation was obtained from rat striated muscle. The preparation used has been shown to contain plasma membranes by electron microscopy as well as by enrichment in specific activity of both a plasma membrane enzyme "marker" (5'-nucleotidase) and cell surface 125I-incorporated radioactivity. The characteristics of 125I-insulin binding to this striated muscle preparation were studied, and it was found that 125I-insulin readily and specifically binds to this membrane preparation. The binding reaction was time, pH, and temperature dependent with optimal steady-state binding conditions occurring at 20 degrees C and at pH 7.6. Under these conditions (20 degrees C, pH 7.6) skeletal muscle plasma membranes displayed little ability to degrade insulin. Binding of 125I-insulin was readily inhibited at physiologic concentrations of unlabeled insulin and the specificity of this receptor for insulin was demonstrated by finding that high concentrations of glucagon, b-LH, b-FSH, p-PRL, hCG, TSH, and HGH were without effect on 125I-insulin binding and that insulin analogues inhibited binding in proportion to their biologic activity. When membranes from older, fatter rats were compared to membranes from younger, lean animals, 5'-nucleotidase specific activity and insulin degrading activity were found to be comparable. On the other hand, insulin binding to membrane receptors was decreased 30%-40% in the older, fatter animals. Thus, these studies indicate that (1) specific insulin receptors exist in skeletal muscle plasma membranes, and (2) membranes from older, fatter rats have fewer receptors than those from younger, lean animals.
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PMID:Insulin receptors of skeletal muscle: specific insulin binding sites and demonstration of decreased numbers of sites in obese rats. 0 34

Thyrotropin (10 muM) inhibited the antiviral activity of interferon. When added after interferon, thyrotropin (TSH) had no effect on antiviral activity. There was also no inhibition of interferon action in cells washed with medium between incubations with TSH and interferon. 125I-Labeled TSH and 125I-labeled cholera toxin could bind to preparations of mouse L-cell plasma membranes. The binding was specific in that it was prevented by unlabeled thyrotropin or cholera toxin, but not by insulin, glucagon, prolactin, growth hormone, human chorionic gonadotropin, or luteinizing hormone. Mouse interferon inhibited 125I-labeled TSH binding to L-cell plasma membranes. The effect of mouse interferon on 125I-labeled cholera toxon binding was more complex, inhibition occurring only after an initial enhancement at low interferon concentrations. A 10-fold higher concentration of interferon was required to inhibit 125I-labeled TSH binding. Mouse interferon was also able to displace bound 125I-labeled TSH, but not bound 125I-labeled cholera toxin. The interferon interaction with cell membranes was temperature-sensitive. Human interferon could induce changes in binding of 125I-labeled TSH and 125I-labeled cholera toxin to mouse L-cell plasma membranes similar to those induced by mouse interferon. Mouse interferon induced similar changes in plasma membranes of human KB-3 cells, which are insensitive to both human and mouse interferons. In view of these results, the species specificity of interferons does not appear to reside solely at the point of the initial interaction with their binding sites.
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PMID:Use of thyrotropin and cholera toxin to probe the mechanism by which interferon initiates its antiviral activity. 1 May 73

Combined Glucagon-Propranolol test used for study of growth hormone is advantages. The combined administration of TRH and LHRH is possible. In 53 children, the hormone responses (GH, TSH, FSH, LH and prolactin) were studied. This combined test allows the rapid assessment of anterior pituitary function.
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PMID:[Combined test for assessment of anterior pituitary function using glucagon-propranolol, TRH and LHRH (author's transl)]. 11 72

Differences exist in the rates at which hormones are inactivated by, or dissociate from, their target tissues. The present studies examined the binding of biologically active TSH to thyroid slices and compared its characteristics to those of PGE. Canine thyroid slices were initally incubated with 5 mU/ML OF BOVINE TSH (TSH-Inital) for 15 min, washed and incubated in media free of hormone for 3 hr. At the conclusion of this second incubation period all slices were again washed. Some were then transferred to media containing 10-2M theophylline for a final 10 min incubation and subsequent measurement of cAMP and protein kinase, while others were transferred to media containing (l-14C)glucose without theophylline for a final 45 min incubation to assess glucose oxidation. Identically treated slices never exposed to TSH served as controls, while others were exposed to TSH only during the final 10 or 45 min incubation periods (TSH-Final). cAMP content determined after significantly increased in TSH-Initial (mean 2.98 plus or minus 0.36 (se) pmol/mg wet wt) compared to control (0.35 plus or minus 0.04), but was less than that in TSH-Final (5.76 plus or minus 0.51). This phenomenon was not unique to canine thyroid, since comparable results were noted in studies of human, bovine or porcine thyroid slices. The protein kinase activity ratio (-cAMP/+cAMP) and glucose oxidation of TSH-Initial were also significantly increased above control following the final 10 min or 45 min incubations respectively. Addition of trypsin to the 3 h incubation abolished the subsequent increase in cAMP in TSH-Initial, while addition of TSH antiserum appreciably reduced this increase. These results are consistent with the persistent binding of biologically active TSH to thyroid. By contrast, evidence of similar persistent binding of PGE1 to thyroid, glucagon to liver, or parathyroid hormone to renal cortex was lacking when assessed by an identical experimental procedure. Differences between the duration of interaction of TSH and PGE1 with thyroid may be dependent or a more gradual dissociation to tissue bound TSH, a more rapid inactivation of bound-PGE1, or both.
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PMID:Evidence for persistent binding of biologically active thyrotropin to thyroid in vitro. 16 69

Suspensions of viable cells were prepared from solid tumor of the Snell adrenocortical carcinoma 494 without the use of proteolytic enzymes. Cyclic AMP formation in these cells was stimulated by ACTH, LH, FSH and TSH but not by prostaglandins (E1, E2, F1alpha and F2alpha), insulin and secretin. Glucagon tested at a single dose level of 50 mug increased cyclic AMP to about 65% of the maximum amounts obtained with ACTH. When Ca++ was omitted from the incubation medium, the response to ACTH was considerably reduced while that to LH was essentially unchanged. Low concentrations of EGTA (0.3 MM) abolished the ACTH response almost completely but caused only a partial reduction in the response to LH; as much as 10 mM EGTA was required to obtain complete inhibition of the latter.
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PMID:Cyclic AMP response of isolated Snell adrenocortical carcinoma 494 cells to trophic hormones and other substances. 17 10

The effects of synthetic linear somatostatin on basal circulating levels on several pituitary and pancreatic hormones, and of glucose and free fatty acids (FFA) were studied in 6 normal men after an overnight fast. A priming intravenous infusion of 250 mug of somatostatin in 18 sec was followed by a constant infusion of 500 mug over a period of 60 min. A decrease in plasma values of GH, prolactin, TSH, insulin and glucagon and in blood glucose was observed during somatostatin infusion, while FFA levels increased progressively. Plasma IRI and blood glucose increased rapidly when the somatostatin infusion was stopped, while FFA decreased progressively; GH, prolactin, TSH and glucagon remained low as compared to basal levels for one hour after the end of the infusion, i.e. until the end of the experiment. A slight but significant increase of LH and ACTH was observed after the end of the infusion.
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PMID:Pituitary and extrapituitary effects of somatostatin in normal man. 18 9

Epinephrine, insulin, glucagon and theophylline produced a significant increase in the cAMP level of Tetrahymena, while the enhancing effect of TSH was not significant. The experimental results suggest that Tetrahymena possesses receptors for hormones of higher animals, but has no receptor for the nonsense hormone TSH. The cAMP enhancing effect shown by many hormones of higher animals irrespective of their different functions indicates that apart from the general mediator action of cAMP, some special mediation is also taking place.
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PMID:Effect of vertebrate hormones on the cyclic AMP level in Tetrahymena. 19 Aug 36

Previously, we have shown that preparations of hCG bind to bovine thyroid membranes, as judged from their ability both to inhibit the binding of 125I-labeled bovine TSH (bTSH) and to activate adenylate cyclase (Amir, S.M., H. Uchimura, and S.H. Ingbar, J Clin Endocrinol Metab 45: 280, 1977). In the present studies, 125I-labeled, highly purified bTSH ([125I]bTSH) has been shown to bind specifically and saturably to receptors in a particulate fraction from rat testis. At 37 C, binding was rapid, reaching a maximum level in less than 15 min, but then declining markedly during the next several hours. At 22 C, binding reached a steady state after 2 h and remained unchanged for another 22 h. Binding of [125I]bTSH was greatest at pH 5.5, at which pH more than 50% of [125I]bTSH was bound in the presence of 330 microgram/ml particulate protein, the concentration of protein that yielded maximum binding. Nevertheless, the majority of experiments were conducted at lesser protein concentrations and at physiological pH (7.45), under which conditions total binding was only 25% of that measured at pH 5.5. Scatchard plots indicated the presence of a single binding site with a dissociation constant of 5.8 X 10(-8) M and a binding capacity of 0.22 nmol/mg protein on the basis of data obtained at 22 C and pH 7.45. Both crude and highly purified preparations of hCG inhibited the binding of [125I]bTSH to testis particulate fraction; crude hCG had 46 times the activity, and purified hCG had only one-tenth the activity of bTSH itself in this respect. This was true despite the fact that with respect to the displacement of [125I]hCG, crude and purified hCG were almost equally active. Bovine LH had one-third the activity of bTSH in displacing [125I]bTSH. Human FSH inhibited [125I]bTSH binding only slightly at the highest concentration tested, while glucagon, insulin, PRL, and GH were inactive. Purified bTSH inhibited the binding of [125I]hCG to testis particulate fraction but contained only about 2% of the activity of purified hCG. Lineweaver-Burk analysis suggested that inhibition of [125I]hCG binding by bTSH was competitive in nature. Purified bTSH stimulated cAMP production in Leydig cells, but with only about 0.1% of the activity of purified hCG. It is concluded that bTSH binds reversibly, saturably, and with relatively high affinity to receptors in rat testis that are either the same as receptors for hCG and LH or that interact therewith. bTSH, like hCG, is capable of stimulating the production of cAMP in rat Leydig cells, but is much less potent than hCG in this regard. Preparations of crude hCG contain a factor lacking hCG activity in bioassay, immunoassay, and receptor assay that is especially potent in displacing [125I]bTSH from receptors in testis, as has earlier been described for bTSH receptors in bovine thyroid membranes.
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PMID:Binding of bovine thyrotropin to receptors in rat testis and its interaction with gonadotropins. 21 36

Genetically obese hyperglycemic mice (ob/ob) were compared with their nonlittermate lean controls at 4-5 months of age with regard to brain serotonin, pituitary ACTH content, and circulating levels of glucose, glucagon, insulin, TSH, T3, T4, total tryptophan and free tryptophan. Brain serotonin pituitary ACTH content, and plasma insulin, glucose, total tryptophan, and free tryptophan were all significantly higher in obese mice than in the controls. TSH, T3, and T4 were not significantly different in obese mice vs. controls, suggesting that the obese mouse is euthyroid. Fasting improved but failed to normalize the glucose and insulin levels or insulin to glucagon ratios. Since serotonin is an important neurotransmitter with regard to hypothalamic-pituitary function and since its levels in the brain are dependent on the availability of tryptophan, the findings of elevated levels of free tryptophan in the plasma and serotonin in the brain of the obese hyperglycemic mouse may help to explain some of the previously observed abnormalities of pituitary hormone secretion in these animals.
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PMID:Plasma free tryptophan, brain serotonin, and an endocrine profile of the genetically obese hyperglycemic mouse at 4--5 months of age. 22 47

In order to investigate whether somatostatin plays a role in the regulation of thyroid hormone secretion we have compared the effects of a prolonged somatostatin infusion on insulin and glucagon levels, on the one hand, with its effect on T4, T3, rT3 and TSH, on the other. Furthermore, the serum levels of somatomedin A were determined. Saline was infused in control experiments. Cyclic somatostatin was given as an i.v. bolus of 200 micrograms followed by a constant rate infusion of 50 micrograms/h during 24 hours. Somatostatin suppressed basal insulin and glucagon levels as well as insulin responses to meals but did not influence somatomedin A levels. T4 and T3 decreased during the first hour, whether somatostatin was given or not. Thereafter, T4 and T3 remained stable in the control experiments, while they continued to decrease slowly when somatostatin was added. The suppressive effect of somatostatin was significant 11 hours (p less than 0.05) and 24 hours (p less than 0.005) after the onset of the infusion. In contrast, rT3 and TSH were not suppressed by somatostatin. The fact that basal TSH did not decrease, favors the idea that the suppression of T4 and T3 was mainly due to a direct inhibitory effect of somatostatin on the thyroid gland. Our observation that a low dose of somatostatin decreases peripheral T4 and T3 levels supports the idea that somatostatin plays a role in the regulation of thyroid hormone secretion.
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PMID:Effect of 24-hour somatostatin infusion on glucose homeostasis and on the levels of somatomedin A and pancreatic and thyroid hormones in man. 39 78

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