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)

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

Effects of growth hormone-releasing factor (GRF) and intake on arterial concentrations and net visceral metabolism of hormones were measured in six growing Hereford x Angus steers using a split-plot design with 4-wk injection periods within 8-wk intake periods. Steers were fed a 75% concentrate diet at two intakes and were injected s.c. twice daily with saline or GRF (10 micrograms/kg of BW). Arterial concentrations of growth hormone (GH) were measured on d 1 and d 8 to 10 of injections. Eleven measurements, obtained at 30-min intervals, of arterial concentration and net flux of hormones across portal-drained viscera (PDV) and liver were obtained on d 8 to 10 of injections (six hourly measurements were used for insulin-like growth factor-I [IGF-I] and somatostatin). The area under the GH curve and average and peak GH concentrations were increased (P less than .01) by GRF and were greater (P less than .10) at low than at high intake. Liver removal of GH was not affected by GRF or intake. Arterial IGF-I concentration was increased (P less than .05) by GRF and not affected by intake. Treatments did not affect IGF-I flux across the liver. Arterial insulin concentration was greater (P less than .05) at high than at low intake, in part because of greater (P less than .01) PDV release. Increased (P less than .10) arterial insulin concentration in GRF-treated steers was not attributable to significant changes in PDV or liver net flux. Arterial glucagon concentration was greater (P less than .01) at high than at low intake, in part because of greater (P less than .05) PDV glucagon release and decreased (P less than .10) liver extraction ratio. Effects of intake on arterial concentration of insulin and glucagon were in part due to changes in visceral metabolism, but GRF did not affect PDV or liver hormone metabolism.
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PMID:Effects of growth hormone-releasing factor and feed intake on energy metabolism in growing beef steers: net hormone metabolism by portal-drained viscera and liver. 134 45

Thirty-eight gestating sows were either immunized against somatostatin (SRIF) and/or injected with growth hormone-releasing factor (GRF). Treatment effects on carcass composition and resistance of newborn piglets to a 60-hour fast were investigated. Protein content of carcasses at birth was increased in piglets of sows receiving GRF or immunized against SRIF, however, when sows received both treatments there was a reduction in carcass protein content (p = 0.01). Other carcass components were unaltered by treatments, and none of the treatments affected metabolic or endocrine profiles of piglets at birth. Concentrations of GH, IGF-I (p less than 0.01), glucagon and cortisol (p less than 0.05) increased linearly with duration of fast, whereas glucose values decreased. Resistance to fasting was unaltered in piglets from any treatment thereby suggesting that exogenous GRF and/or SRIF immunization of sows during gestation are unlikely to improve survival of newborn piglets.
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PMID:Carcass composition and resistance to fasting in neonatal piglets born of sows immunized against somatostatin and/or receiving growth hormone-releasing factor injections during gestation. 134 59

The in vivo effects of recombinant human insulin-like growth factor-I (rhIGF-I) on whole body protein metabolism were studied to ascertain whether rhIGF-I has comparable effects as those reported with rhGH use in humans. The doses of rhIGF-I chosen achieved similar plasma IGF-I concentrations as those achieved after 7 days of rhGH injections. Eight normal volunteers were studied using [1-13C]- and [1-14C]leucine tracers, before, 4 h, and 28 h after a continuous infusion of rhIGF-I at 5 micrograms kg-1 h-1 (n = 6) and 10 micrograms kg-1 h-1 (n = 2). Two additional subjects were studied in a protein catabolic state after 7 days of high dose (0.8 mg kg-1 day-1) glucocorticosteroid administration. Plasma concentrations of rhIGF-I were similar using either 5 or 10 micrograms kg-1 h-1 and increased to values approximately 300% above baseline by 28 h of infusion. No decrease in the plasma glucose concentration was observed during the 28-h infusion; however, plasma insulin, C-peptide, and glucagon concentrations significantly decreased, whereas plasma free fatty acids were not affected. No changes were observed in the rate of proteolysis (as estimated by the rate of leucine appearance), the rate of leucine oxidation, or the rate of protein synthesis in the absence or presence of glucocorticosteroid treatment. Plasma concentrations of insulin-like growth factor binding protein-3 did not change during the rhIGF-I infusion whereas they increased 50% in subjects who received rhGH, and in whom rhGH caused a potent protein anabolic effect. These results suggest that rhIGF-I may have a somatostatin-like effect. In addition, we found that rhIGF-I infusion is insufficient to promote protein anabolism. This may be due to the failure of rhIGF-I alone to induce a pivotal GH-dependent cofactor(s) necessary for IGF-I to elicit an anabolic effect on protein metabolism in humans.
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PMID:Low dose recombinant human insulin-like growth factor-I fails to affect protein anabolism but inhibits islet cell secretion in humans. 143 76

Hyperglycemia, hyperinsulinemia, and insulin resistance cause vascular disease in type 2 diabetes mellitus. Dietary treatment alone often fails and oral drugs or insulin enhance hyperinsulinemia. In previous studies, an intravenous bolus of recombinant human insulin-like growth factor-I (rhIGF-I) caused normoglycemia in insulin-resistant diabetics whereas rhIGF-I infusions lowered insulin and lipid levels in healthy humans, suggesting that rhIGF-I is effective in insulin-resistant states. Thus, eight type 2 diabetics on a diet received on five treatment days subcutaneous rhIGF-I (2 x 120 micrograms/kg) after five control days. Fasting and postprandial glucose, insulin, C-peptide, proinsulin, glucagon, triglyceride, insulin-like growth factor-I and -II, and growth hormone levels were determined. RhIGF-I administration increased total IGF-I serum levels 5.3-fold above control. During the control period mean (+/- SD) fasting glucose, insulin, C-peptide, and total triglyceride levels were 11.0 +/- 4.3 mmol/liter, 108 +/- 50 pmol/liter, 793 +/- 250 pmol/liter, and 3.1 +/- 2.7 mmol/liter, respectively, and decreased during treatment to a nadir of 6.6 +/- 2.5 mmol/liter, 47 +/- 18 pmol/liter, 311 +/- 165 pmol/liter, and 1.6 +/- 0.8 mmol/liter (P < 0.01), respectively. Postprandial areas under the glucose, insulin, and C-peptide curve decreased to 77 +/- 13 (P < 0.02), 52 +/- 11, and 60 +/- 9% (P < 0.01) of control, respectively. RhIGF-I decreased the proinsulin/insulin ratio whereas glucagon levels remained unchanged. The magnitude of the effects of rhIGF-I correlated with the respective control levels. Since rhIGF-I appears to improve insulin sensitivity directly and/or indirectly, it may become an interesting tool in type 2 diabetes and other states associated with insulin resistance.
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PMID:Insulin-like growth factor-I improves glucose and lipid metabolism in type 2 diabetes mellitus. 146 83

Somatostatin and somatostatin analogs are known to interact with the GH-insulin-like growth factor (IGF)-I axis by inhibiting GH secretion and consequently hepatic IGF-I production. Indirect evidence suggests that octreotide, a somatostatin analog, reduces serum IGF-I levels relatively more than expected from GH reduction, implying a GH-independent pathway of action. To study the role of octreotide in the regulation of IGF-I production, independently of endogenous GH, we used the hypophysectomized (hypox) rat to measure hepatic IGF-I expression and also employed cultured rat hepatocytes to examine whether octreotide has any direct effect on the production of IGF-I. Forty male hypox Sprague-Dawley rats were randomized into 4 groups to receive daily injections for 3 days of either saline, human GH (hGH) (100 g), octreotide (100 g twice), or both hGH (100 g) and octreotide (100 g twice). GH stimulated serum IGF-I levels to 104 +/- 10 micrograms/liter as compared to saline (26 +/- 2 micrograms/liter). Octreotide alone had no effect, but combining octreotide and hGH significantly reduced the hGH-induced rise in the IGF-I levels (52 +/- 6 micrograms/liter). The relative expression of hepatic IGF-I in the rats treated with hGH increased by 4-fold compared to that in the saline-treated rats. Octreotide administered simultaneously with hGH potently blocked the hGH-induced IGF-I expression to control levels. In cultured hepatocytes, IGF-I mRNA levels maximally stimulated by combining bGH and glucagon were significantly inhibited in the presence of octreotide at low concentrations (0.3 and 3 ng/ml) by 25% and 45%, respectively. In contrast, high concentrations of octreotide (30 and 300 ng/ml) had no significant effect on IGF-I mRNA abundance. We conclude that: 1) octreotide inhibits IGF-I serum levels and hepatic gene expression in the hypox rat; and 2) octreotide can inhibit partially the direct effects of GH and glucagon on hepatic IGF-I production.
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PMID:Octreotide inhibits insulin-like growth factor-I hepatic gene expression in the hypophysectomized rat: evidence for a direct and indirect mechanism of action. 154 11

The metabolic effects of recombinant human insulin-like growth factor I (rhIGF-I) on glucose, amino acid, and free fatty acid (FFA) metabolism were examined in nine healthy nonobese subjects. Each received a 3-h primed continuous infusion of rhIGF-I (20 micrograms/kg bolus, 0.4 microgram.kg-1.min-1) while maintaining euglycemia using an exogenous glucose infusion. Total IGF-I levels increased from 125 +/- 11 to 444 +/- 22 ng/ml, and free IGF-I levels rose from undetectable to 73 +/- 5 ng/ml. Insulin levels fell from 95 +/- 9 to 64 +/- 8 pM, and C-peptide fell from 453 +/- 48 to 206 +/- 29 pM; circulating glucagon levels also declined from 72 +/- 9 to 42 +/- 4 pg/ml, rhIGF-I produced a two- to threefold increase in glucose uptake as measured by [3H] glucose (from 10.3 +/- 0.6 to 27.4 +/- 3 mumol.kg-1.m-1), and, despite the fall in insulin secretion, there was a marked 60-70% inhibition of hepatic glucose production. Furthermore, FFA and branched-chain amino acids declined by 40-60% (411 +/- 58 to 165 +/- 36 and 406 +/- 23 to 219 +/- 14 microM, respectively). Our data demonstrate that rhIGF-I has potent effects on glucose (hepatic and peripheral), lipid, and amino acid metabolism in normal humans. The scope of the actions of rhIGF-I closely resemble those of insulin, despite a concomitant inhibitory effect on insulin secretion.
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PMID:Diverse effects of insulin-like growth factor I on glucose, lipid, and amino acid metabolism. 173 44

Insulin-like growth factors I and II (IGF-I and IGF-II) are thought to primarily regulate the growth and development of a number of tissues. However, it has recently been observed that when IGF-I is infused into man and animals, plasma insulin levels fall, raising the possibility that IGF-I may also be an inhibitor of insulin secretion. This study used the in vitro perfused rat pancreas and recombinant human IGF-I and IGF-II to determine if either of these peptides affected insulin and/or glucagon secretion from normal rats. IGF-I given with 7.8 mM glucose suppressed insulin secretion by as much as 65%, with the half-maximal effect occurring at less than 10 ng/ml. Glucose-induced insulin secretion (7.8 mM glucose) and arginine-induced insulin secretion (10 mM arginine plus 7.8 mM glucose) were inhibited equally (40%) by 2 ng/ml IGF-I. Insulin secretion returned to normal within minutes of stopping IGF-I. IGF-II (200 ng/ml) also suppressed insulin release, but the effect was less pronounced than for IGF-I and was present at 16.7 mM glucose, but not at 7.8 mM glucose. In contrast to the effects on insulin release, neither peptide altered glucagon secretion. We conclude from these results that 1) IGF-I at physiological concentrations is a potent inhibitor of both glucose- and arginine-induced insulin secretion; 2) the magnitude of the inhibition depends on the background glucose concentration; and 3) the inhibition fully reverses when IGF-I is stopped. These results support an in vivo effect of IGF-I to modulate insulin output.
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PMID:Insulin-like growth factor-I at physiological concentrations is a potent inhibitor of insulin secretion. 240 19

Insulin-like growth factor I (IGF-I, somatomedin C) was mapped by immunocytochemistry in the pancreas of normal and experimentally influenced rats. The polyclonal IGF-I antiserum K 37 was characterized and demonstrated to be specific. In the exocrine pancreas some duct cells showed IGF-I immunoreactivity, other components being negative. The three main endocrine cell types in the islets of Langerhans were IGF-I immunoreactive, most strikingly the D cells. Hypophysectomy resulted in loss of IGF-I immunoreactivity in all three endocrine cell types, i.e. D, A and B cells, while the levels of somatostatin, glucagon and insulin, respectively, remained unchanged. Starvation seemed to increase and feeding to decrease the IGF-I immunoreactivity in the B cells. Cysteamine pre-treatment reduced the normally intense IGF-I and somatostatin immunoreactivities in the D cells. In rats made diabetic with alloxan or streptozotocin, the B cells were irreversibly damaged and lost both their insulin and IGF-I immunoreactivities, while the IGF-I immunoreactivity was increased in A cells; the D cells remained unchanged. The concentrations of IGF-I mRNA in the pancreas were almost equal in normal and alloxan diabetic rats as were the concentrations of extractable IGF-I. We conclude that IGF-I immunoreactive material can be demonstrated in adult animals in all endocrine islet cells, most prominently in the D cells. The expression of IGF-I immunoreactivity is in part under pituitary control. In the adult rat only one islet cell type synthesizes IGF-I immunoreactive material, i.e. the D cells, while, in contrast, the B cells are likely to be a major IGF-I source in fetal and neonatal islets.
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PMID:Insulin-like growth factor I in the pancreas of normal and diabetic adult rats. 246 68

GH is necessary but not sufficient to induce adipose differentiation of 3T3-F442A fibroblasts in serum-free medium. Human (h) GH (2 nM) treatment of 3T3-F442A cells in serum-free medium caused a time-dependent (maximal at 48-72 h) and dose-dependent (EC50, approximately 0.2 nM) decrease (40-60%) in de nova protein synthesis. Insulin-like growth factor-I (IGF-I; 17 nM), PRL (2 nM), and glucagon (20 nM) did not decrease de novo protein synthesis, whereas bovine GH was equipotent with hGH. The half-lives of 35S-labeled proteins of 3T3-F442A cells were 21 and 57 h for cells maintained in serum-free medium for 3 days without or with hGH (2 nM), respectively. The total protein content of cells maintained in hGH (2 nM) for 1-4 days was unaffected compared to cells in serum-free medium alone. IGF-I (17 nM) treatment of cells for 4 days doubled the protein content of cells compared to control values in serum-free medium. hGH (2 nM) pretreatment of cells for 1-4 days had no effect on total RNA synthesis. hGH (2 nM) but not IGF-I (17 nM) treatment (3 days) resulted in a 7-fold decrease in cytoplasmic 18S rRNA content (as measured by DNA-RNA hybridization) of cells compared to that of control cells maintained in serum-free medium. When 3T3-F442A cells were transferred to serum-free medium there was a progressive decrease in DNA synthesis. The presence of hGH enhanced the rate at which DNA synthesis decreased for 3T3-F442A cells. IGF-I (17 nM) increased DNA synthesis by 6- and 8-fold after 2 and 3 days of IGF-I exposure. 3T3-F442A cells maintained in serum-free medium for 3 days responded to the addition of platelet-derived growth factor (2 U/ml) and insulin (1.6 microM) with a 56-fold increase in DNA synthesis, assayed 24 h later. 3T3-F442A cells treated with hGH (2 nM) for 3 days before platelet-derived growth factor and insulin addition exhibited a diminished DNA synthetic response, demonstrating that GH-exposed cells were partially refractory to mitogenic stimulation. GH had no effect on any aspect of macromolecular synthesis in 3T3-C2 cells, which have a low frequency of adipogenesis. Based upon these results a cell cycle model for the role of GH in the adipose differentiation of 3T3-F442A cells was proposed.
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PMID:Growth hormone-dependent events in the adipose differentiation of 3T3-F442A fibroblasts: modulation of macromolecular synthesis. 247 29


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