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)

Eighteen diabetic patients with lactic acidosis (L.A.) were analyzed for possible causal factors, metabolic changes, and efficacy of treatment. An antecedent phenformin therapy was performed in fifteen cases and was associated with renal insufficiency in ten cases and liver disease in eight cases. Tissular anoxia of primary hemodynamic or respiratory origin was absent in all cases. The severe metabolic acidosis (pH m.93 +/- 0,03; HCO3-= 6 +/- 1 MM; PaCO2 = 18 +/- 2 MM. Hg) and hyperlactatemia (14.2 +/- 0.3 mM) were associated with high lactate/pyruvate ration (70 +/- 22). High alanine levels (up to 4.6 mM) were measured in some of these patients. High beta-hydroxybutrate levels were sometimes measured (up to 7.6 mM), and substantial amounts of acetoacetate were also detected in twelve cases. Glucagon level was always increased (1,050 +/- 240 pg./ml.), and insulin/glucagon ratio was low. Cortisol (49 +/- 10 mug./100 ml.) and HGH (10.8 +/- 0.6 ng./ml.) were also elevated. Increased plasma levels of phenformin were measured in five L.A. diabetic subjects (50 +/- 5 mug./ml.) by comparison with other phenformin-treated diabetic subjects. The specificity of the assay was investigated, and phenformin metabolites were characterized by thin-layer chromatography. Por the treatment of L.A., adjunction of dialysis and furosemide improved the efficacy of early and massive sodium bicarbonate infusion. It is suggested that accumulation of phenformin via renal insufficiency plays a determinant role in causing L.A. through an impairment of lactate metabolism in the liver. An accelerated epuration of the drug may be helpful in therapy of L.A. Phenformin treatment should be avoided in case of renal and/or liver insufficiency.
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PMID:Phenformin-induced lactic acidosis in diabetic patients. 80 37

1. Six well-trained cyclists and six untrained subjects were studied during and immediately after four successive 7 min periods of exercise at 30, 45, 60 and 75% of their maximal work capacity. 2. Venous blood samples were taken at rest, at the end of each exercise period and 5 min following the end of exercise, for estimation of metabolites in blood and plasma insulin, growth hormone, cortisol and catecholamines. 3. The results showed significant differences in the mobilization and utilization of muscle fuels between the athletically fit cyclists and the untrained group. In the cyclists, glucose, glycerol and free fatty acid concentrations were higher, but lactate, pyruvate and alanine were lower than in the untrained subjects during exercise. 4. Plasma catecholamines rose in both groups during exercise but the rise was significantly less in the racing cyclists. Plasma insulin was depressed to a greater extent in the untrained subjects during exercise and plasma glucagon rose to a greater extent during strenuous exercise and remained elevated after the end of exercise in the untrained group. Plasma human growth hormone rose to a greater extent during exercise and remained elevated after the end of exercise in the untrained group. Plasma cortisol fell at low and moderate exercise rates in both groups, but to a smaller extent in the cyclists. Cortisol values rose at higher workloads and were significantly higher in the cyclists at the end of exercise. 5. It is concluded that there are significant differences in the metabolic and hormonal responses to exercise between athletically trained and untrained individuals, even when the physically fit subjects work at the same percentage of their maximal capacity as the unfit subjects.
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PMID:Differences in the metabolic and hormonal response to exercise between racing cyclists and untrained individuals. 94 45

The present study examines the role of insulin, glucagon and cortisol in the regulation of gluconeogenesis from lactate and amino acids in fetal and newborn rats. Injection of glucagon in the full-term fetal rat caused a rise in glucose (and insulin) and a fall in blood levels of most individual amino acids, stimulated hepatic accumulation of 14C-amino isobutyric acid and 14C-cycloleucine and increased the conversion of 14C lactate, alanine and serine to glucose in vivo and in vitro (liver slices). Such changes were equivalent to the changes seen in 4 h old newborn rats. When glucagon was administered at birth, little difference was observed between control and treated animals in plasma amino acids and a smaller increment in conversion of 14C substrate to glucose occurred. By contrast, insulin injection at birth caused hypoglycemia, suppression of levels of certain amino acids and inhibition of conversion of 14C substrates into glucose. Glucose injection at birth caused elevated glycemia and plasma insulin and suppression of most amino acid levels and of conversion of 14C substrate into glucose. Cortisol injection at birth caused a marked, generalized by hyperaminoacidemia, a stimulation of glucagon secretion and of conversion of 14C substrates into glucose. These observations support the thesis that glucagon plays a major role in the induction of hepatic gluconeogenesis and that insulin acts as an antagonist hormone.
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PMID:Effects of exogenous hormones and glucose on plasma levels and hepatic metabolism of amino acids in the fetus and in the newborn rat. 96 9

It has been shown that in primary cultures of rat fetal hepatocytes cortisol induces the development of glycogen storage ability. Cortisol has also a permissive effect in insulin action on the development of the glycogen synthetic pathway. However the regulation of glycogenolytic pathway by glucagon, which is present before any significant amount of glycogen storage, is not cortisol dependent.
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PMID:[Proceedings: Cortisol-dependent glycogen storage and responses to insulin and glucagon in rat fetal cultured hepatocytes (author's transl)]. 119 Jul 13

Plasma concentrations of glucose, insulin, glucagon, cortisol, growth hormone and prolactin were measured repeatedly in ten females undergoing abdominal hysterectomy during general anaesthesia. In addition to general anaesthesia five of the patients had continuous epidural analgesia effective for the first 26 postoperative hours. Plasma glucose was elevated during surgery and postoperatively, but not in patients having epidural analgesia. Insulin was low and unchanged in both groups. Glucagon was unchanged and similar in both groups. Cortisol was lower during surgery in the epidural group, but not postoperatively. Growth hormone increased during surgery in four of five patients receiving general anaesthesia alone, but no changes were observed in the epidural group. Prolactin was greatly elevated in all patients immediately after induction of anaesthesia and then fell rapidly during surgery, similarly in both groups. It is concluded that epidural analgesia can inhibit the hyperglycaemic response to surgical stress, but this effect cannot be uniformly correlated to changes in peripheral plasma levels of insulin, glucagon, cortisol, growth hormone or prolactin.
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PMID:Effect of epidural analgesia on the glycoregulatory endocrine response to surgery. 126 58

Tumor necrosis factor (TNF), interleukin 1 (IL-1) and interleukin 6 (IL-6) are central mediators of the inflammatory response. We investigated the modulation of these cytokines by hormones in vitro. Murine adherent peritoneal exudate cells (PEC) were exposed to various concentrations of hormones followed by lipopolysaccharide (LPS, 10 micrograms/ml). TNF, IL-1 and IL-6 production were assessed by bioassays, enzyme-linked immunosorbent assays (ELISA) or Western blot, and specific RNA transcripts by Northern blot. Hydrocortisone in concentrations as low as 10 ng/ml had dramatic inhibitory effects on supernatant levels of TNF and IL-1 and on TNF, IL-1 and IL-6 transcript number. Supernatant levels of IL-6 were only slightly diminished by hydrocortisone. Adrenocorticotrophic hormone (ACTH) and insulin increased supernatant levels of TNF bioactivity in response to LPS, while each decreased available TNF-alpha gene transcripts. Thus TNF protein production was affected at a post-transcriptional level. ACTH and insulin increased supernatant levels of IL-6 produced in response to LPS without altering available transcripts. Corticotrophin-releasing factor (CRF), epinephrine and glucagon had no effect on supernatant levels of cytokine. Thus, physiological and pharmacological concentrations of hydrocortisone had dramatic inhibitory effects on the supernatant levels of TNF and IL-1, and on the number of available TNF, IL-1 and IL-6 transcripts in PEC exposed to LPS, but had minimal effects on supernatant levels of IL-6 bioactivity. This hydrocortisone action may be a specific negative feedback system for IL-1 and TNF, with relative sparing of IL-6.
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PMID:Hormonal regulation of inflammatory cell cytokine transcript and bioactivity production in response to endotoxin. 131 63

The present study was undertaken to determine whether an acute physiological increase in plasma cortisol level had significant effects on alanine metabolism and gluconeogenesis within 3 hours in conscious, overnight-fasted dogs. Each experiment consisted of an 80-minute tracer and dye equilibration period, a 40-minute basal period, and a 3-hour experimental period. A primed, continuous infusion of [3-3H]glucose and continuous infusions of [U-14C]alanine and indocyanine green dye were initiated at the start of the equilibration period and continued throughout the experiment. Dogs were studied with (1) a hydrocortisone infusion ([CORT] 3.0 micrograms.kg-1.min-1, n = 5), (2) hydrocortisone infused as in CORT, but with pancreatic hormones clamped using somatostatin and basal intraportal replacement of insulin and glucagon (CLAMP+CORT, n = 5), or (3) saline infusion during a pancreatic clamp (CLAMP, n = 5). Glucose production and gluconeogenesis were determined using tracer and arteriovenous difference techniques. During CLAMP, all parameters were stable except for a modest 67% +/- 6% increase in gluconeogenic conversion of alanine to glucose and a 53% +/- 26% increase in gluconeogenic efficiency. When plasma cortisol levels were increased fourfold during CLAMP+CORT, there was no change in the concentration, production, or clearance of glucose. Gluconeogenic conversion of alanine to glucose increased 10% +/- 34% and gluconeogenic efficiency increased 65% +/- 43%, while net hepatic alanine uptake (NHAU) increased 60% +/- 19% and hepatic fractional extraction of alanine increased 38% +/- 12%. Cortisol did not cause an increase in the arterial glycerol level or net hepatic glycerol uptake.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effects of acute elevations in plasma cortisol levels on alanine metabolism in the conscious dog. 146 Nov 35

Sodium nitroprusside was infused intravenously for 10 minutes in normal men, reclining at 45 degrees, in a dose sufficient to decrease the arterial pressure by 10 mmHg. The effect on a variety of plasma hormones was measured during the infusion and for 20 minutes afterwards. The heart rate increased to a maximum of 149%. Norepinephrine rose to a maximum of 196% in 5 minutes. Epinephrine reached a peak of 207% after 10 minutes. Plasma renin activity reached a peak of 449% at 10 minutes. Aldosterone did not change during the infusion, but increased to a maximum of 145% 10 minutes later. Vasopressin increased sharply at the end of the infusion to 893% and then rapidly decreased. Corticotropin, prolactin and growth hormone started to increase toward the end of the infusion, but reached their maxima during recovery. Corticotropin (225%) and prolactin (288%) peaked 10 minutes after the infusion, while growth hormone (414%) appeared still to be rising 20 minutes after the end of the infusion. Cortisol also rose progressively during recovery to a level of 138%. No significant changes were seen in the concentrations of insulin, glucagon, atrial natriuretic peptide, bombesin or neurotensin.
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PMID:Temporal relations of the endocrine response to hypotension with sodium nitroprusside. 155 71

Adipocytes from adrenalectomized rats nearly lost their lipolytic response to glucagon concomitant with a 90% decrease in the number of glucagon receptors per cell. Quantitative analysis of the relation between amount of cell-bound glucagon and hormone-stimulated lipolysis revealed that the ability of the remaining 10% of glucagon receptors to induce lipolysis was not impaired. Binding of the beta-adrenergic antagonist [3H]dihydroalprenolol and maximal lipolysis induced by (-)-isoproterenol, (Bu)2cAMP, 3-isobutyl-1-methylxanthine, and adenosine deaminase were reduced only 10 to 20% after adrenalectomy. Furthermore, glucagon-stimulated cAMP production was greatly decreased in adrenalectomized animals, but isoproterenol-stimulated cAMP production was not. Hydrocortisone replacement in adrenalectomized rats only partially prevented the loss of glucagon receptors and glucagon effects on both cAMP production and lipolysis. These findings suggest that lipolytic cascade distal to hormone receptors was not greatly impaired in adipocytes after adrenalectomy and that the unresponsiveness of these cells to glucagon was mostly due to a marked reduction in the number of glucagon receptors.
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PMID:Adrenalectomy-induced alterations in glucagon binding and lipolysis in isolated rat adipocytes. 169 90

We have followed the hormonal response to exercise in twelve normal males cycling at a constant moderate load for ten minutes. Plasma concentrations of a variety of hormones were measured at set times before and during exercise and for twenty minutes afterward. The plasma concentration of norepinephrine and epinephrine and plasma activity of renin rose to a maximum at the end of exercise and then declined. The plasma concentrations of neurotensin and atrial natriuretic peptide followed a similar course. Plasma vasopressin rose to a peak at the end of exercise and then fell transiently below the initial value ten minutes after exercise. The plasma concentrations of aldosterone, prolactin and adrenocorticotropin increased during exercise but continued to do so, reaching a peak at ten minutes after exercise. Plasma growth hormone increased during exercise and continued to increase throughout the period of twenty minutes' recovery. Cortisol did not change during exercise but rose progressively during the recovery period. Plasma concentrations of glucagon did not change while that of insulin decreased during exercise. The plasma concentration of bombesin slowly increased during exercise and declined during recovery, reaching a basal value 10 minutes later.
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PMID:Temporal relations of the endocrine response to exercise. 187 87

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