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)

Glucagon was infused through the porta or through the left renal artery in dogs. Another group of dogs were infused with glomerulopressin through the left renal artery. It was observed that glucagon when infused through the portal vein enhanced the glomerulopressin production and the glomerular filtration rate (GFR). When glucagon was infused intrarenally it did not alter GRF but it had a direct tubular action decreasing sodium reabsorption in the proximal tubule. Glomerulopressin infused intrarenally increased GRF and potassium excretion. The results suggest that the increase in GFR was due to increase in glomerulopressin activity. There are three reasons for this statement: a) GRF increased when glomerulopressin activity was high, but not when there was a low activity, 5) intrarenally infused glomerulopressin produced a very significant change in the GFR of the infused kidney, while the GRF of the contralateral kidney remained unchanged and c) intrarenally administered glucagon had no effect on GFR.
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PMID:Effect of glucagon and glomerulopressin on the renal function of the dog. 45 30

1. The primordial GRF may have arisen quite early in evolutionary history, at or prior to (i.e. should immunoreactivity data be confirmed in invertebrates) the appearance of jawed vertebrates (Gnathostomates). A common evolutionary pathway using gene duplication may have been utilized to generate the GRF super-family of peptides. As most members of this peptide superfamily are produced in the gastrointestinal tract, the question is posed whether the GRF may have similar origins. 2. It is suggested that the GRF superfamily has two major branches: a) GRF; PRP/PACAP; VIP/PHI; secretin and b) Glucagon/GLP-1/GLP-2. GIP is likely to be a member of the glucagon branch. The two branches may be attributable to gene duplication encoding an ancestral molecule. These gene duplications are likely to have occurred prior to the evolution of vertebrates (conservatively 400-500 million years ago, and possibly 1 billion years ago). It is probable that peptides homologous to GRF, VIP and glucagon will be isolated from invertebrates. These invertebrate sequences will shed further light upon the evolution of this peptide superfamily. 3. Throughout the GRF superfamily, amphiphilic alpha-helical secondary structures represent preferred bioactive conformations. It is assumed that stable, ordered secondary structures conferring enhanced ligand-receptor interactions were conserved due to selective pressures. 4. It is well documented that hypothalamic GRF stimulates adenohypophyseal GH secretion in a variety of species. Thus far, the physiological effects of GRF have been attributed thus to the elevation of GH, and possibly also IGF-I. Recent data suggests a more liberal view; that GRF may also have direct actions in fetal/placental development, reproduction and immune function. Furthermore these direct effects may be mediated via GRF from either hypothalamic or extrahypothalamic (e.g. placenta, testes, ovary, leukocyte) sources. In conclusion, a great wealth of information has accumulated since the discovery of GRF. Examination of the GRF peptide superfamily from an evolutionary perspective has revealed new insights into the synthesis, processing, degradation, conformation and activities of these molecules. Knowledge obtained from these evolutionary comparisons has also become particularly useful in contemporary peptide drug design, which may be liberally viewed as a form of 'artificial evolution' (i.e. the selective pressure being clinical/veterinary requirements for more potent, long-acting GRF analogs).
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PMID:Evolution of the growth hormone-releasing factor (GRF) family of peptides. 129 Sep 54

Two hundred and forty-one cases of isolated ACTH deficiency have been reported in Japan since 1969. Pituitary hormone responsiveness to stimulation tests before and after hydrocortisone supplementation was investigated in these cases. Plasma ACTH level showed no or little change in response to lysine vasopressin, metyrapone, CRF or insulin-induced hypoglycemia in 97.3-100% of the cases. Serum GH level changed little or not at all in response to GRF, insulin-induced hypoglycemia, glucagon, 1-dopa and arginine in 26.9, 29.3, 40.0, 50.0 and 56.1%, respectively. Serum TSH and prolactin (PRL) levels showed hyperresponse to TRH in 34.7 and 35.6%, respectively. After hydrocortisone therapy, GH secretion was more responsive than before therapy in 78.9% of the cases. After supplementation, TSH level was less responsive to TRH stimulation than before therapy in 59.3% of the cases. After hydrocortisone supplementation, TSH response to TRH decreased in 75% of ACTH-deficient patients without primary hypothyroidism but did not decrease in more than half of those with primary hypothyroidism. TSH response to TRH decreased after supplementation in 76.5% of the patients with TSH hyperresponsiveness before therapy, and increased after therapy in 66.7% of those with normal TSH responses before therapy. After supplementation, PRL response to TRH was less than that before therapy in 43.5% of ACTH--deficient patients, and greater than that before therapy in 30.4%. PRL response to TRH decreased after therapy in 66.7% of the patients with PRL hyperresponsiveness before therapy, and increased in 63.6% of those with normal PRL response before therapy. Primary hypothyroidism and Hashimoto's thyroiditis were complicated in 21.6 and 11.6%, respectively, of the 241 patients with isolated ACTH deficiency. In patients who had TSH hyperresponsiveness and/or high basal TSH levels and PRL hyperresponsiveness and/or high basal PRL levels, primary hypothyroidism was complicated in 58.4 and 42.3%, respectively. Hashimoto's thyroiditis was complicated in 29.8 and 20.5%, respectively, of these patients. Pituitary cell antibody (PCA) was detected in 36.6% of ACTH-deficient patients who were examined. Pituitary cell surface antibody (PCSA) to AtT-20 cells and GH3 cells was detected in 50.0 and 28.0% of the examined cases, respectively. The prevalence of PCA and PCSA did not differ between TSH-hyperresponsive patients and those with normal TSH basal levels and response, whereas PCA and PCSA were significantly more prevalent in PRL-hyperresponsive patients than in those with normal PRL levels and response. An empty sella was found in 30.2% of the examined case.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Hyperresponsiveness of TSH and prolactin and impaired responsiveness of GH in Japanese patients with isolated ACTH deficiency]. 133 97

A 42-year-old woman with a family history of multiple endocrine neoplasia type 1 (MEN 1) presented with symptomatic hypoglycaemia and peptic ulceration. Investigation revealed an insulinoma, hyperparathyroidism, hypercalcitoninaemia with a positive pentagastrin stimulation test, acromegaly due to a GRF-oma, hyperprolactinaemia and normal serum gastrin levels. Five pancreatic tumours were removed at laparotomy and immunostaining was positive for insulin, calcitonin, somatostatin and glucagon. Post-operatively she developed elevated serum gastrin levels and gross peptic ulceration, despite H2-blockers, and died of gastro-intestinal haemorrhage suggesting that removal of the somatostatinoma may have allowed increased gastrin secretion from a gastrinoma. This case emphasizes the importance of measuring a wide variety of tumour marker peptides in MEN 1 and suggests that caution is required in interpretation of the pentagastrin stimulation test in such cases. Patients with MEN 1 and known peptic ulceration may require perioperative omeprazole treatment even if serum gastrin levels are normal.
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PMID:A case of multiple endocrine neoplasia: hyperparathyroidism, insulinoma, GRF-oma, hypercalcitoninaemia and intractable peptic ulceration. 135 65

Previous studies have demonstrated that glucagon-superfamily peptides stimulate insulin release from the pancreatic islets in a glucose dependent manner. In this study we have carried out a structure-activity study of their insulinotropic activity using a rat pancreas perfusion with 5.5 mM glucose concentration. The following peptides were examined: glucagon-like peptide-1(7-36)amide (tGLP-1), glucagon, gastric inhibitory peptide (GIP), peptide having an amino-terminal histidine and carboxy-terminal isoleucine amide (PHI), vasoactive intestinal polypeptide (VIP), growth hormone releasing factor(1-29)amide (GRF), GRF(1-27)amide and synthetic hybrid-peptides of PHI-GRF, PHI(1-11)-GRF(12-27) and PHI(1-20)-GRF(21-27). Their potencies were evaluated as: tGLP-1 = GIP > glucagon > PHI = VIP > PHI(1-20)-GRF(21-27) > PHI(1-11)-GRF(12-27) >> GRF(1-29) = GRF(1-27). It is clear that 0.1 nM tGLP-1 stimulated insulin release, whereas 1 microM GRF(1-29) did not. These results indicate that 1) in addition to N-terminal amino acid (histidine or tyrosine), position 4 (glycine), position 9 (aspartic acid) and position 11 (serine) in the amino acid sequence are important for their insulinotropic activity, 2) not only the N-terminal portion but also the C-terminal portion of these peptides contribute to their insulinotropic activity.
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PMID:Comparison of the insulinotropic activity of glucagon-superfamily peptides in rat pancreas perfusion. 146 9

The term "renal functional reserve" (RFR) refers commonly to the reserve of glomerular filtration rate (GFR) and renal blood flow. RFR can be elicited by an oral protein load or by infusion of aminoacids, glucagon, or dopamine. The increase in GFR which follows aminoacid administration results from a cascade of events including at least pancreatic release of glucagon, involvement of an hepatic step yet unidentified, and renal synthesis of vasodilatory prostaglandins. RFR represents a constant fraction of baseline GRF as long as the latter is above 40-50 l/min. It has been suggested tha permanent challenge of RFR, which occurs in protein-rich diet or during the hyperfiltration phase of diabetic nephropathy, might lead to and accelerate impairment of renal function. The relevance of RFR measurement as a tool to predict the evolution of renal function in various types of renal diseases remains to be evaluated.
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PMID:[Renal functional reserve]. 160 58

In most of the children with short stature, no organic basis can be found, which has led to the suggestion that some cases of growth failure may be due to an immunoreactive but bioinactive growth hormone (GH). In order to compare GH immunoreactivity and bioactivity (measured as receptor binding ability), a radioreceptor assay allowing the measurement of GH levels in human serum was developed using cultured human lymphocytes and 125I-labeled human GH purified by high-performance liquid chromatography. Serum samples were obtained after pharmacological stimulation with either insulin, glucagon or GRF from 19 healthy control subjects and 114 patients with various growth disturbances, aged 2.3-24.8 years. In general, there was a good correlation between the GH levels measured by the two methods, the RRA-GH levels being lower than the RIA-GH levels at all times irrespective of the stimulation test. In all the groups studied, most of the individual RRA/RIA ratios were within normal limits. It is concluded that the presence of an abnormal (bioinactive) GH molecule is extremely rare in patients with short stature.
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PMID:Measuring growth hormone activity through receptor and binding protein assays. 180 79

The role of vasoactive intestinal peptide (VIP), as a possible neurotransmitter of the intrinsic nerve plexus in the guinea pig gallbladder, was investigated by monitoring spontaneous contractile activity. VIP receptor antagonist (4 Cl-D-Phe6, Leu 17)-VIP did not produce any effect on muscular tone and spontaneous activity, whereas (N-Ac-Tyr1, D-Phe2)-GRF-(1-29)-NH2, (14-GRF analog), which is known to stimulate digestive enzyme secretion by interacting with the VIP-preferring receptors, greatly increased the amplitude and frequency of waves as well as the muscular tone. Since VIP receptor antagonist acts selectively as a competitive antagonist for the action of VIP, we conclude that the gallbladder inhibitory intrinsic plexus neurotransmitter is not VIP, but a member of the glucagon-secretin family of peptides.
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PMID:A glucagon-secretin-like peptide stimulates the intrinsic nervous plexus of guinea pig gallbladder. 197 97

Vasoactive intestinal peptide (VIP) has been implicated as a physiological PRL-releasing factor; however, characterization of VIP receptors on normal pituitaries using radioligand-binding methods has been problematic. In this study we demonstrated specific receptors for VIP in anterior pituitary glands of female rats using HPLC-purified monoiodinated [Tyr(125I)10]VIP. Binding of VIP was reversible, saturable to receptor and radioligand, regulated by guanine nucleotides, and dependent on time and temperature. Scatchard analysis of competitive binding studies indicated high and low affinity binding sites, with equilibrium dissociation constants (Kd) of 0.19 +/- 0.03 and 28 +/- 16 nM, respectively. The corresponding maximum numbers of binding sites were 158 +/- 34 fmol/mg and 11.7 +/- 6.9 pmol/mg. Binding was specific, as peptides with structural homology to VIP were less than 100th as potent as VIP. The rank order of potency of the peptides tested was VIP greater than rat (r) peptide histidine isoleucine = human (h) PHI greater than rGRF greater than bovine GRF = porcine PHI = VIP-(10-28) greater than hGRF greater than secretin greater than apamin greater than glucagon. Radioligand binding was associated primarily with lactotrope-enriched fractions prepared by unit gravity sedimentation of dispersed anterior pituitary cells. VIP stimulated PRL release from cultured rat anterior pituitary cells, with an ED50 of 1 nM. These results, comprising the first identification of specific VIP receptors in normal rat anterior pituitary tissue using radioligand-binding methods, provide additional support for a biological role of VIP in lactotrope function.
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PMID:Receptors for vasoactive intestinal peptide in rat anterior pituitary glands: localization of binding to lactotropes. 215 75

GRF promotes follicular maturation and ovulation when administered with FSH in the treatment of infertility. Such actions could be mediated by stimulation of GH secretion and insulin-like growth factor I production, but the known actions of the structurally related hormone, vasoactive intestinal peptide (VIP), on granulosa cell function suggested that GRF may also act directly on the ovary to stimulate follicular development. Radioligand binding and activation studies, performed in granulosa cells from immature estrogen-treated rats, revealed a common receptor for VIP and rat (r) GRF in the ovary. Specific binding of [125I]VIP to granulosa cells was saturable and dependent on time and temperature. The relative potencies of VIP-related peptides for inhibition of radioligand binding were: VIP greater than rGRF greater than peptide histidine isoleucinamide greater than [His1,Nle27] human GRF(1-32)NH2 greater than secretin. In binding studies with the potent GRF agonist, [125I] [His1,Nle27]GRF(1-32)NH2, relative potencies were: rGRF(1-43)OH greater than [His1,Nle27]human GRF(1-32)NH2 greater than VIP greater than peptide histidine isoleucinamide greater than secretin. Glucagon and gastric inhibitory peptide, other peptides of the glucagon superfamily, and unrelated peptides including CRF and beta-endorphin, did not inhibit binding of either radioligand to ovarian receptors. In cultured granulosa cells, rGRF and VIP stimulated cAMP formation, consistent with coupling of their receptors to the adenylate cyclase system, and potentiated FSH-induced cAMP production. Both peptides also amplified FSH-induced progesterone biosynthesis, aromatase activity, and LH receptor formation. These observations demonstrate that rGRF is a potent cAMP-mediated agonist in the rat ovary and acts on a common VIP/GRF receptor in maturing granulosa cells. It is likely that the potentiating effect of administered GRF on gonadotropin-stimulated follicular development in vivo is in part mediated by direct actions of the peptide on the VIP/GRF receptor. Also, since GRF is present in the gonads, it is possible that the locally-produced peptide promotes follicular maturation by paracrine modulation of the stimulatory action of FSH on granulosa cell function.
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PMID:Receptor-mediated actions of growth hormone releasing factor on granulosa cell differentiation. 217 7

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