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)

The binding of biologically active [125I]thyrotropin to purified plasma membranes prepared from bovine thyroid glands was studied. At 4 degrees C, specific binding reached a maximum after 2 h of incubation and a plateau was maintained for up to 20 h. Degradation of [125I]thyrotropin was undetectable after 2 h of incubation and was only 10% of the total after 20 h. At pH 6.0, at which binding was maximal, a single class of binding sites, having a dissociation constant of approx. 25 nM, was evident. Dissociation studies revealed first order kinetics with a half-time of 2-3 min. At pH 7.5, binding curves were complex, suggesting two orders of binding sites with dissociation constants of approx. 200 nM and 80 pM. Further, at this pH, dissociation of the thyrotropin from its receptor was also complex, suggesting the presence of two first order reactions, one with a half-time similar to that seen at pH 6.0 and another with a half-time of 4 h. At both pH 6.0 and 7.5, insulin, glucagon, growth hormone, and prolactin were without effect on [125I]thyrotropin binding. Similar high affinity and low affinity binding sites were seen with porcine thyroid membranes, but only low affinity sites were seen with either rat liver membranes or human cultured lymphocytes.
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PMID:The interaction of radioiodinated thyrotropin with plasma membranes. Evidence for high affinity binding sites in the thyroid. 0 55

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

We studied the contribution of alpha- and beta-adrenergic receptor activation to the cardiovascular, metabolic, and hormonal effects of dopamine. At a concentration of 1.5 mug/kg.min, the infusion of dopamine in 12 normal volunteers was associated with a transient but significant rise in pulse rate, which was prevented by propranolol. Venous plasma glucose did not change throughout the experiments, and a mild increase in plasma free fatty acid levels observed during the administration of dopamine alone was antagonized by propranolol. In contrast, neither the beta-adrenergic blocker, propranolol, nor the alpha-adrenergic blocker, phentolamine, was effective in inhibiting the dopamine-induced rise in plasma glucagon (from 82+/-9 to 128+/-14 pg/ml; P < 0.005) and serum insulin (from 7.5+/-1 to 13+/-1.5 muU/ml; P < 0.005) or its suppression of plasma prolactin (from 8.5+/-1 to 5.2+/-0.8 ng/ml; P < 0.001). Although serum growth hormone levels did not change during the infusion of dopamine alone, an obvious rise occurred in three subjects during the combined infusion of propranolol and dopamine. Whereas some metabolic and cardiovascular effects of dopamine are mediated through adrenergic mechanisms, these observations indicate that this is not the case for the effects of this catecholamine on glucagon, insulin, and prolactin secretion, and thus provide further support for the theory of a specific dopaminergic sensitivity of these hormonal systems in man.
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PMID:Dopamine during alpha- or beta-adrenergic blockade in man. Hormonal, metabolic, and cardiovascular effects. 3 29

An enkephalin analogue [D-Ala2, MePhe4, Met(o)-ol] enkephalin (DAMME), given intravenously to normal subjects raised serum prolactin and growth-hormone levels but lowered serum levels of luteinising hormone, follicle-stimulating hormone, cortisol, and corticotrophin. There was also a small fall in total glucagon and gastric inhibitory peptide (G.I.P.) and a rise in thyrotrophin. beta-Lipotrophin, motilin, vasoactive intestinal peptide, insulin, gastrin, and pancreatic glucagon were unchanged. Blood-glycerol increased, and blood lactate, alanine, and glucose fell. Prior administration of the opiate antagonist, naloxone, attenuated the hormonal responses to DAMME. This enkephalin analogue produces endocrine and metabolic changes in man which may be mediated through opiate-binding receptors both within and outside the brain. The enkephalins and related substances may provide an important link between perception, behaviour, and neuroendocrine regulation of hormone secretion and metabolism.
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PMID:Hormonal and metabolic responses to an enkephalin analogue in normal man. 8 35

Changes in plasma glucose, nonesterified fatty acids, insulin, glucagon, cortisol, growth hormone, and prolactin have been studied in baboons during the course of generalized epileptic seizures induced by intravenous bicuculline. Plasma glucose rose to a peak at 25 min but fell to hypoglycemic levels after 60 min of seizure activity. This hypoglycemia was accompanied by a marked elevation in plasma insulin. Plasma glucagon rose to a peak at 14 min, then returned to normal. Plasma growth hormone levels were elevated after 60 min of seizure activity. Plasma prolactin and cortisol levels also rose during the seizure. These changes result from sequential interaction of (1) autonomic activation at seizure onset, (2) spread of neuronal activity to the hypothalamus leading to the liberation of releasing factors, and (3) indirect physiologic consequences of seizure activity.
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PMID:Endocrine factors and glucose metabolism during prolonged seizures in baboons. 11 9

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

The binding of labeled insulin to dissociated R3230AC mammary adenocarcinoma cells from diabetic and intact rats was investigated in vitro. At 20 degrees, specific binding (total binding minus binding in the presence of 1000-fold excess or 10(-6) M unlabeled insulin) reached a plateau at 45 to 60 min and was directly related to the number of cells used. Degradation of labeled insulin, as measured by trichloroacetic acid precipitation, was related to the number of cells used, was not prevented by trasylol or phenylmethylsulfonyl fluoride (general proteolytic enzyme inhibitors), but was prevented by addition of 1 to 2% bovine serum albumin to the incubation medium. Specificity of insulisulin, and desoctapeptide insulin were capable of competing for insulin binding in an order of potency related to their relative biological activity; prolactin and glucagon were unable to compete for insulin binding. Scatchard analysis of the binding data demonstrated a curvilinear-plot; specific binding (over the concentration range of 10(-11) to 10(-10) M insulin) showed a high affinity (Kd approximately 1 to 3 X 10(-10) M), and the estimated number of sites was greater in tumors from diabetic animals than in tumors from intact animals or intact animals given insulin prior to sacrifice. Reversibility of insulin binding was studied by dissociation experiments; dissociation was enhanced in the presence of added unlabeled insulin compared to dissociation examined under conditions of "infinite" dilutions only. Maximum dissociation of bound insulin was observed in the presence of 10(-7) M unlabeled insulin, with less of an effect at lower or higher concentrations of added insulin (no effect seen at 10(-10) M insulin). Two techniques were investigated for separating cells from unbound labeled insulin; the procedure using centrifugation was found to be more efficient. Thus, in the R3230AC mammary adenocarcinoma, data obtained on saturability, reversibility, and specificity of insulin binding indicate the existence of an insulin receptor with properties similar to those found in normal cells.
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PMID:Identification and characterization of the insulin receptor in the R3230AC mammary adenocarcinoma of the rat. 13 40

Adult rats were rendered diabetic by a single iv injection of streptozotocin (70 or 75 mg/kg). In these rats, serum insulin fell to minimal levels during the 48 h following drug treatment, and this was roughly paralleled by a progressive decrease in the ability of the lung to oxidize glucose. The addition of insulin to diabetic rat lung slices in vitro had no restorative effect on the depressed glucose oxidative rate during a 2 h incubation period; however, two daily treatments of the rats with 1 unit of protamine, zinc insulin completely restored lung glucose oxidation rate to normal, without significantly reducing the hyperglycemic state of the rats. An examination of the temporal changes in glucose utilization by the rat lung after acute insulin treatment revealed that the diabetic lung responded directly to serum levels of insulin, whereas the normal lung appeared to be unaffected by serum insulin levels as hihg as 87 ng/ml. The reduced rate of glucose oxidation in the diabetic lung was apparent after perfusion of the lung with glucose-free medium, and was characterized by a significant reduction in Vmax without an alteration in Km. This was attended by a depressed ability of the lung to incorporate [3H]leucine into protein and an increased ability to produce lactate, but hexose monophosphate shunt activity was normal. Specific receptors for insulin have been identified and partially characterized in crude membrane preparations of normal rat lung. The interaction of insulin with these receptors was rapid, reversible, saturable, and was dependent upon time and temperature. The binding of labeled insulin was inhibited by low concentrations of unlabeled insulin and by high concentrations of proinsulin, whereas it was unaffected by the presence of glucagon, gastrin, prolactin, ACTH, or growth hormone in microgram amounts. These observations suggest that insulin regulates the transport and utilization of glucose in the rat lung, and that this tissue contains specific receptors for insulin.
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PMID:Pulmonary insulin responsivitiy: in vivo effects of insulin on the diabetic rat lung and specific insulin binding to lung receptors in normal rats. 14 46

Gangliosides inhibit 125I-labeled thyrotropin binding to the thyrotropin receptors on bovine thyroid plasma membranes, on guinea pig retro-orbital tissue plasma membranes, and on human adipocyte membranes. This inhibition by gangliosides is critically altered by the number and location of the sialic acid residues within the ganglioside structure, the efficacy of inhibition having the following order: GD1b greater than GT1 greater than GM1 greater than GM2 = GM3 greater than GD1a. The inhibition results from the interaction of thyrotropin and gangliosides, rather than the interaction of membrane and gangliosides. Fluorescence studies show that the inhibition is associated with a distinct conformational change of the thyrotropin molecule and that the progression from a "noninhibitory conformation" to an "inhibitory conformation" parallels exactly the order of effectiveness in inhibiting 125I-labeled thyrotropin binding. The ganglioside inhibition of 125I-labeled thyrotropin binding appears to be hormonally specific in that it is not affected by albumin, glucagon, insulin, prolactin, follicle-stimulating hormone, growth hormone, or corticotropin. The possibility that a ganglioside or ganglioside-like structure is a component of the thyrotropin receptor is suggested by the finding that gangliosides more complex than N-acetylneuraminylgalactosylglucosylceramide are present in bovine thyroid membranes in much higher quantities than have been previously found in extraneural tissue. The finding that the B component of cholera toxin, which also interacts with gangliosides, has a peptide sequence in common with the beta subunit of thyrotropin, suggests that thyrotropin and cholera toxin may be analogous in their mode of action on the membrane.
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PMID:Thyrotropin-ganglioside interactions and their relationship to the structure and function of thyrotropin receptors. 17 57

The specific binding of 125I-labeled insulin, human hormone ([125I]hGH), bovine growth hormone ([125I]bGH), and ovine prolactin ([125I]oPRL) was studied in mouse liver membranes. [125I]hGH and [125I]oPRL bound to adult liver membranes. Pregnancy increased the specific binding of [125I]hGH but not that of [125I]oPRL. [125I]hGH was displaced from membranes of pregnant mice by hGH, oPRL, and bGH, but only by hGH and oPRL from liver membranes of nonpregnant mice. Significant specific binding of [125I]bGH was seen only in pregnancy. The binding of [125I]bGH to pregnant mouse liver membranes increased with increasing concentration of either membrane protein or [125I]bGH. Both the specific binding and dissociation of [125I]bGH were greatly influenced by the time and temperature of incubation. Binding of [125I]bGH was inhibited by growth hormones, including hGH and rat GH, and not by lactogenic hormones (various prolactins and human placental lactogen), ACTH, glucagon, or insulin. The inhibition of [125I]hGH binding by hGH and bGH, in the presence of excess (2 mug/ml) of PRL, was very similar to that seen with [125I]bGH. Scatchard plots of displacement dose-response curves obtained under steady state conditions of 4C were nonlinear and very similar with either [125I]bGH or [125I]hGH. This contrasted with the linear Scatchard plots obtained from displacement dose-response curves of either [125I]oPRL or [125I]hGH in the presence of excess (2 mug/ml) bGH. Termination of pregnancy, either naturally or by hysterectomy, reduced [125I]bGH specific binding to nonpregnant levels by 24 to 36 h. Estrogen administration did not increase [125I]bGH binding in hepatic membranes. Nonpregnant mice possess hepatic lactogen binding sites which are uninfluenced by pregnancy. GH specific binding sites are markedly augmented during pregnancy. The close correlation between the level of these sites and pregnancy suggests that they are regulated by a product of the fetoplacental unit.
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PMID:Characterization and modulation of growth hormone and prolactin binding in mouse liver. 17 65

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