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)

The mitotic rate of stem cells is a major determinant of cancer risk. Insulin-like growth factors (IGFs) are virtually obligate stimulants of cell turnover in nearly every tissue. IGF activity is subject to rapid modulation by hepatic release of IGF binding protein-1 (IGFBP-1), a factor whose synthesis is suppressed by insulin and increased by glucagon. Up-regulation of IGFBP-1 production can be expected to decrease IGF activity and thereby diminish cancer risk. Measures that sensitize peripheral tissues to insulin, and thereby down-regulate insulin secretion, can be expected to increase IGFBP-1 synthesis, provided that they do not unduly sensitize hepatocytes as well. Prolonged aerobic exercise and caloric restriction also increase IGFBP-1 production. Since IGF-1 suppresses hepatic synthesis of sex hormone binding globulin (SHBG), down-regulation of IGF activity will increase SHBG levels and thus diminish the availability of free sex hormones--an effect that should further decrease cancer risk in sex hormone-responsive tissues. These considerations rationalize many findings in animal and epidemiologic studies, and suggest that non-diabetic insulin resistance may be a significant cancer risk factor. Increased IGF activity associated with insulin resistance may also promote benign hyperplasias-most notably atherosclerosis. Hyperinsulinemia stimulates intimal hyperplasia indirectly, via IGF.
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PMID:Up-regulation of IGF binding protein-1 as an anticarcinogenic strategy: relevance to caloric restriction, exercise, and insulin sensitivity. 916 Feb 83

Hyperinsulinemic, normoglycemic clamps were performed before and after 24 h of either hypocaloric nutrition or bed rest in healthy subjects. Decreased insulin sensitivity and insulin-like growth factor-I (IGF-I) bioavalibility, as measured by the serum IGF-I/insulin-like growth factor binding protein-1 (IGFBP-1) ratio, was found after fasting, whereas no metabolic changes were found after bed rest. Glucagon seems to be a key regulator of IGFBP-1 after brief hypocaloric nutrition. Hypocaloric nutrition and immobilization may add to the catabolic response to surgery and other trauma. Presently, six healthy subjects were studied before and after a 24-h period of hypocaloric nutrition (200 kcal/24 h, fast) or immobilization (bed rest) using the hyperinsulinemic (0.8 mU.kg-1.min-1), normoglycemic (4.5 mmol/L) clamp, indirect calorimetry, and circulating levels of substrates and hormones. After fast, body weight decreased (P < 0.05), and nitrogen balance was negative (-10 +/- 1 g urea nitrogen/24 h). Basal levels of free fatty acids, glucagon, and IGFBP-1 increased (P < 0.05), whereas c-peptide levels and the IGF-I/IGFBP-1 ratio decreased (P < 0.05). However, no change was found in basal levels of IGF-1 or substrate oxidation. Furthermore, changes (%) in basal levels of glucagon after fast correlated to IGFBP-1 (r = 1.0, P < 0.05), whereas the suppressibility of IGFBP-1 by insulin was maintained at normal levels. During clamps, glucose infusion rates (GIR) decreased after fast (-43 +/- 13%, mean +/- SEM, P < 0.001). Although not significantly, clamp levels of fat oxidation tended to increase and glucose oxidation tended to decrease. Levels of IGFBP-1 during clamps were higher as compared with the control clamp (P < 0.05). No adverse metabolic changes were seen after bed rest, and no change in GIR during clamps were seen as compared with the control measurement (0 +/- 14%). After brief hypocaloric nutrition, insulin sensitivity is reduced, whereas IGF-I bioavalibility is reduced by an increase in levels of IGFBP-1. Glucagon seems to contribute to the increase in IGFBP-1 during these conditions.
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PMID:Short-term hypocaloric nutrition but not bed rest decrease insulin sensitivity and IGF-I bioavailability in healthy subjects: the importance of glucagon. 943 9

The purpose of the study was to investigate the effects of octreotide on the response of counterregulatory hormones to insulin-induced hypoglycaemia in 9 Type 1 diabetic patients without autonomic neuropathy. During an euglycaemic clamp, saline or octreotide (50 mcg) was randomly injected subcutaneously. Patients were then clamped to hypoglycaemic levels (2.5 mmol/l), and hormonal response was evaluated after 30 min of hypoglycaemia. Although octreotide suppressed both GH (0.5 +/- 0.01 vs 9.5 +/- 0.9 ng/ml, p < 0.001) and glucagon (110 +/- 9 vs 165 +/- 10 pg/ml, p < 0.05) responses, it did not affect cortisol, epinephrine, IGF-1 and IGFBP-3 levels. The time required for recovery from hypoglycaemia was longer after octreotide (19.1 +/- 1.2 min vs 14.3 +/- 0.9 min, p < 0.05), and a greater amount of infused glucose was needed to reach normoglycaemia (g 24.6 +/- 1.2 vs 17.7 +/- 1.3, p < 0.05). These findings suggest that administration of octreotide to insulin-treated Type 1 diabetic patients may impair anti-hypoglycaemic counterregulatory mechanisms through suppression of glucagon and GH responses.
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PMID:Effect of octreotide on growth hormone, IGF-I, IGFBP-3, glucagon, cortisol and epinephrine response to insulin-induced hypoglycaemia in insulin-dependent diabetic patients. 949 59

The mouse ob gene encodes leptin, an adipocyte hormone that regulates body weight and energy expenditure. Leptin has potent metabolic effects on fat and glucose metabolism. A mutation of the ob gene results in mice with severe hereditary obesity and diabetes that can be corrected by treatment with the hormone. In lean mice, leptin acutely increases glucose metabolism in an insulin-independent manner, which could account, at least in part, for some of the antidiabetic effect of the hormone. To investigate further the acute effect of leptin on glucose metabolism in insulin-resistant obese diabetic mice, leptin (40 ng x g(-1) x h(-1)) was administered intravenously for 6 h in C57Bl/6J ob/ob mice. Leptin increased glucose turnover and stimulated glucose uptake in brown adipose tissue (BAT), brain, and heart with no increase in heart rate. A slight increase in all splanchnic tissues was also noticed. Conversely, no increase in skeletal muscle or white adipose tissue (WAT) glucose uptake was observed. Plasma insulin concentration increased moderately but neither glucose, glucagon, thyroid hormones, growth hormone, nor IGF-1 levels were different from phosphate-buffered saline-infused C57Bl/6J ob/ob mice. In addition, leptin stimulated hepatic glucose production, which was associated with increased glucose-6-phosphatase activity. Conversely, PEPCK activity was rather diminished. Interestingly, hepatic insulin receptor substrate (IRS)1-associated phosphatidylinositol 3-kinase activity was slightly elevated, but neither the content of glucose transporter GLUT2 nor the phosphorylation state of the insulin receptor and IRS-1 were changed by acute leptin treatment. Hepatic lipid metabolism was not stimulated during the acute leptin infusion, since the content of triglycerides, glycerol, and citrate was unchanged. These findings suggest that in ob/ob mice, the antidiabetic antiobesity effect of leptin could be the result of a profound alteration of glucose metabolism in liver, BAT, heart, and consequently, glucose turnover. Insulin resistance of skeletal muscle and WAT, while not affected by acute leptin treatment, could also be corrected in the long term and account for some of leptin's antidiabetic effects.
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PMID:Acute intravenous leptin infusion increases glucose turnover but not skeletal muscle glucose uptake in ob/ob mice. 1034 14

Protein kinase B/Akt (PKB/Akt) is activated by phosphatidylinositol 3-kinase (PI 3-K) and is a central mediator of cellular proliferation and protection against apoptosis. Insulin, insulin-like growth factor (IGF-1), and glucagon-like peptide-1 (GLP-1) act as glucose-dependent growth factors for pancreatic beta-cells. We assessed signaling pathways and stimulation patterns of PKB/Akt activation by these ligands in the beta-cell line INS-1. Insulin, IGF-1, and GLP-1 induced distinctive time dependent, dose dependent, and glucose dependent phosphorylation of PKB/Akt. Insulin and IGF-1 stimulated PI 3-K activity was mainly associated with insulin receptor substrate (IRS) isoforms IRS-1 and IRS-2 and less so with the IRS-isoform Grb-2 associated binder-1 (Gab-1). In contrast, GLP-1 induced PI 3-K activity mainly in Gab-1 and also in IRS-2 immunoprecipitates, although in an attenuated kinetic. Thus, activation pathways of PKB/Akt by insulin, IGF-1, and GLP-1 converge at the level of IRS-isoforms and PI 3-K inducing differential activation of PKB/Akt. These data indicate an essential role of PKB/Akt in regulation of beta-cell proliferation.
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PMID:Integrative mitogenic role of protein kinase B/Akt in beta-cells. 1119 29

The effect of the supply of metabolizable protein on splanchnic fluxes of nutrients and hormones was measured in six catheterized late-lactation Holstein cows in a crossover design. Two isonitrogenous diets (16.3% CP), but differing in rumen protein degradability and estimated metabolizable protein (MP) supply (1654 g/ d, Lo-MP; 1930 g/d, Hi-MP) were fed, each over a 35-d experimental period. On d 34 or 35, net fluxes of nutrients and hormones across the portal-drained viscera, the liver, and total splanchnic tissues were determined. Portal absorption of total, essential, nonessential, and branched-chain amino acids (AA) increased with the Hi-MP diet. Approximately 76% of the additional metabolizable protein supply was recovered as extra AA-N absorption in the portal vein. Liver removal of AA was not different between diets, and this resulted in a greater net release across the splanchnic tissues for the Hi-MP diet. This extra AA supply provided substrates for the observed increased milk protein yield for the Hi-MP diet. Fractional efficiencies of conversion of absorbed individual essential AA into milk protein ranged from 0.42 to 0.68. The corresponding efficiencies for utilization of postsplanchnic AA supply were 0.42 to 1.80. Provision of methionine, phenylalanine, and histidine beyond the liver were similar to outputs in milk protein but the other essential AA were supplied to peripheral tissues in excess of milk output, indicative of oxidative mechanisms in nonhepatic tissues. Net fluxes of glucose, NH3-N, and urea were not affected by the diets. Neither arterial concentrations of insulin, somatotropin, or IGF-1, nor net transfers across the portal-drained viscera or liver of insulin, were affected by the diets. Although portal release of glucagon was not different between the diets, a smaller proportion was removed by the liver on the Hi-MP diet. Metabolism of AA across the splanchnic tissue bed is a major determinant of the quantity and the profile of AA delivered to peripheral tissues.
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PMID:Effect of supply of metabolizable protein on splanchnic fluxes of nutrients and hormones in lactating dairy cows. 1241 16

A diabetic acromegalic man, not cured after surgery and radiosurgery, received lanreotide i.m. with great clinical and biochemical improvement. He required NPH insulin (76 to 84 units/day) to control his diabetes mellitus. Thirty-six hours after changing to LAR-octreotide (20 mg i.m/month) he presented symptomatic hypoglycemia, repeated at 48 and 72 h (50 mg/dL), despite reducing insulin to 26 Units/day. Thereafter, he reduced insulin by 30 to 50% for the first week after each LAR-octreotide injection, and gradually increased it again over the next 3 weeks. This situation persists after every injection 3 years later; this consistent behavior supports a specific effect of LAR-octreotide, and not a by chance phenomenon. No marked changes in circulating GH, IGF-1, immunoreative insulin, C-peptide, testosterone and glucose were observed prior to, and 3, 7, 14, 21, and 28 days after LAR-octreotide; however, there was 28% fall in plasma glucagon after 7 days, which rose thereafter. C-peptide (< 1.8 ng/mL) was indicative of decreased beta-cell function. To our knowledge, this is the first report of such a distinct differential behaviour of blood glucose and insulin requirements with different somatostatin analogs, and is worth recalling when starting an insulin-treated diabetic patient on this treatment. It may be related to a preferential binding of LAR-octreotide to subtype 2 somatostatin receptors in the pancreas, while lanreotide preferentially binds to subtype 5, not expressed in this tissue; this would explain the fall in glucagon, in parallel to the decrease in insulin requirements after LAR-octreotide; however, a contribution of differences in the effect of both somatostatin analogues on postreceptor signalling systems and/or intestinal carbohydrate absorption cannot be entirely ruled out.
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PMID:Decreased insulin requirements after LAR-octreotide but not after lanreotide in an acromegalic patient. 1250 80

Whole-body vibration is reported to increase muscle performance, bone mineral density and stimulate the secretion of lipolytic and protein anabolic hormones, such as GH and testosterone, that might be used for the treatment of obesity. To date, as no controlled trial has examined the effects of vibration exercise on the human endocrine system, we performed a randomized controlled study, to establish whether the circulating concentrations of glucose and hormones (insulin, glucagon, cortisol, epinephrine, norepinephrine, GH, IGF-1, free and total testosterone) are affected by vibration in 10 healthy men [age 39 +/- 3, body mass index (BMI) of 23.5 +/- 0.5 kg/m2, mean +/- SEM]. Volunteers were studied on two occasions before and after standing for 25 min on a ground plate in the absence (control) or in the presence (vibration) of 30 Hz whole body vibration. Vibration slightly reduced plasma glucose (30 min: vibration 4.59 +/- 0.21, control 4.74 +/- 0.22 mM, p=0.049) and increased plasma norepinephrine concentrations (60 min: vibration 1.29 +/- 0.18, control 1.01 +/- 0.07 nM, p=0.038), but did not change the circulating concentrations of other hormones. These results demonstrate that vibration exercise transiently reduces plasma glucose, possibly by increasing glucose utilization by contracting muscles. Since hormonal responses, with the exception of norepinephrine, are not affected by acute vibration exposure, this type of exercise is not expected to reduce fat mass in obese subjects.
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PMID:Effects of whole-body vibration exercise on the endocrine system of healthy men. 1523 50

Appropriate insulin therapy is central to the management of all individuals with type 1 diabetes mellitus. The potential role of adjunctive therapy in type 1 diabetes is to improve insulin action, and facilitate the ability of all individuals with type 1 diabetes to achieve and maintain 'better' metabolic control. The landmark clinical trial in type 1 diabetes is the Diabetes Control and Complications Trial (DCCT). The DCCT showed that there is no threshold below which a reduction in glycemia would not provide further benefit against diabetes-related microvascular complications. This study in particular provides the rationale for attempting to achieve as near normoglycemia as possible. We review the use of recognized pharmacologic agents as potential insulin adjunctives in children and adolescents with type 1 diabetes. Adjunctive therapies can be grouped into the following categories based on their putative mechanism of action: enhancement of insulin action (e.g. the biguanides and thiazolidinediones), alteration of gastrointestinal nutrient delivery (e.g. acarbose and amylin), and other targets of action (e.g. pirenzepine and insulin-like growth factor-1 [IGF-1], which reduce growth hormone secretion, and glucagon-like peptide-1, which acts to stimulate insulin secretion). Many of these agents have been found to be effective in short-term studies with decreases in glycosylated hemoglobin of 0.5-1.0%, lowered postprandial blood glucose levels, and decreased daily insulin doses. Adverse effects such as poor gastrointestinal tolerability (metformin, acarbose) or potential acceleration of retinopathy (IGF-1) indicates the need for further studies of efficacy, safety, and patient selection before these adjunctive therapies can be widely recommended in type 1 diabetes.
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PMID:Potential adjunctive therapies in adolescents with type 1 diabetes mellitus. 1551 Nov 28

Plant proteins have a reduced content of essential amino acids in comparison to animal proteins. A significant reduction of limiting amino acids (methionine, lysine, tryptophan) means lower protein synthesis. In subjects with predominant or exclusive consumption of plant food a higher incidence of hypoproteinemia due to significant reduction of methionine and lysine intakes was observed. On the other hand, lower intake of these amino acids provides a preventive effect against cardiovascular disease via cholesterol regulation by an inhibited hepatic phospholipid metabolism. Vegetarians have a significantly higher intake of non-essential amino acids arginine and pyruvigenic amino acids glycine, alanine, serine. When plant protein is high in non-essential amino acids, down-regulation of insulin and up-regulation of glucagon is a logical consequence. The action of glucagon in the liver is mediated by stimulation of adenyl cyclase that raises cyclic-AMP (adenosine-3,5-monophosphate) concentrations. Cyclic-AMP down-regulates the synthesis of a number of enzymes required for de novo lipogenesis and cholesterol synthesis, up-regulates key gluconeogenic enzymes and the LDL receptors and decreases the IGF-1 activity (insulin-like growth factor). Cyclic-AMP thus provides a reduction of atherosclerosis risk factors as well as a retardation of cancer development. A sufficient consumption of plant proteins has the protective effects against chronic degenerative diseases (Tab. 2, Ref. 26).
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PMID:Health benefits and risks of plant proteins. 1620 43


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