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)

The acute effects of i.v. somatostatin (250 mcg bolus followed by 250 mcg/h continuous infusion for two hours) on renal hemodynamics, renal electrolyte and water handling, and urinary excretion of catecholamines and prostaglandins, as well as on plasma concentrations of arginine vasopressin, atrial natriuretic factor, norepinephrine, epinephrine, dopamine, glucagon, and plasma renin activity were studied in seven normal subjects. Somatostatin decreased effective renal plasma flow and glomerular filtration rate, osmotic and free water clearances, urine volume, and sodium and potassium excretion, while urinary osmolality, fractional excretion of sodium, and phosphate excretion increased significantly. Plasma concentrations of arginine vasopressin, atrial natriuretic factor, norepinephrine, epinephrine, and dopamine remained unchanged, while plasma renin activity (3.0 +/- 0.25 vs 2.4 +/- 0.2 ng AngI/ml/h; p less than 0.01) and glucagon levels (40 +/- 11 vs 20 +/- 16 pg/ml; p less than 0.01) decreased. Urinary excretion of norepinephrine, epinephrine, dopamine, PGE2, and PGF2 alpha was suppressed under somatostatin. A significant positive correlation was found between urinary dopamine and sodium excretion (r = 0.7; p less than 0.001) and urinary prostaglandin E2 and glomerular filtration (r = 0.52; p less than 0.01). Without accompanying changes in plasma osmolality and vasopressin concentration significant antidiuresis occurred, suggesting a direct tubular effect of somatostatin. However, the hormone-induced changes are due mainly to the decrease in renal plasma flow. The results demonstrate that somatostatin at supraphysiological doses exerts significant effects on the kidney.
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PMID:Effect of somatostatin on kidney function and vasoactive hormone systems in health subjects. 168 Nov 32

The renal effect of cyclic somatostatin was studied on healthy subjects. The somatostatin was used at therapeutical dose in intravenous infusion. Somatostatin decreases the renal plasma flow, glomerular filtration rate, osmotic and free water clearances, sodium and potassium excretion and the tubular reabsorption of phosphorus while urinary osmolality increases. Under somatostatin infusion the urinary excretion of catecholamines, PGE2, PGF2 alfa and the plasma renin activity and the plasma concentration of glucagon and growth hormone decrease. The antidiuretic activity of somatostatin is due to a) a direct haemodinamic effect, b) an influence on the renal tubular transport as well and also c) because of change the water handling in the collecting ducts.
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PMID:[Effect of somatostatin on kidney function]. 168 89

The BB rat is the experimental analogue of human juvenile diabetes mellitus. From 30 through 120 days after birth, 59 BB rats were treated with water (n = 20), or FK 506 in daily intragastric doses of 1 mg/kg (n = 19) or 2 mg/kg (n = 20). Diabetes developed in 75%, 15%, and 0% of the three groups. Animals protected from diabetes by FK 506, and killed in the nondiabetic state at 120 days had normal intraperitoneal glucose tolerance tests, virtual absence histopathologically of autoimmune insulitis, normal pancreatic insulin content, and immunocytochemical confirmation of islet insulin and glucagon content. Forty five to 75 days after stopping FK 506, about 3/4 of the animals who were diabetes free at 120 days have remained so. These results provide support for a clinical trial of FK 506 for recent onset diabetes.
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PMID:FK 506 prevents spontaneous diabetes in the BB rat. 170 5

The present study was designed to determine in humans the dose of CCK which suppresses food intake. 18 male subjects received in randomized order either i.v. saline or Thr28 Nle31 CCK 25-33 (CCK-9) at 100 or 500 pmol/kgh, respectively. In addition, 7 subjects received CCK together with the opiate receptor antagonist naloxone to examine if activation of endogenous opioids might interfere with the potential satiating effect of CCK. Food intake during saline was 32 +/- 2 sandwiches (mean +/- SEM), during CCK-9 100 pmol/kgh 28 +/- 2 (n.s.) and only 12 +/- 3 during CCK-9 500 pmol/kgh (p less than 0.01). The respective water intake was 730 +/- 70 ml, 590 +/- 60 ml (n.s.) and 320 +/- 50 ml (p less than 0.01). Naloxone further reduced food and water intake during high but not low dose CCK or saline. During saline postprandial insulin levels rose by 49 +/- 6 microU/ml within 45 min which was attenuated during low dose (23 +/- 6 microU/ml; p less than 0.01) and high dose CCK-9 (1 +/- 1 microU/ml; p less than 0.001). Plasma glucagon did not change in control or CCK experiments. The postprandial rise of pancreatic polypeptide was attenuated during high dose CCK. Naloxone had no effect on the hormonal response except for a prolonged reduction of insulin and glucose levels following high dose CCK + naloxone. Plasma CCK levels rose by 5.4 pmol/l in controls but by 55 and 255 pmol/l during the low and high dose CCK infusion, respectively. These data demonstrate that suppression of food intake in man by i.v. CCK is a pharmacological rather than a physiological effect.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of CCK on food intake in man: physiological or pharmacological effect? 171 70

This study was designed to find out whether rest intervals and prevention of dehydration during prolonged exercise inhibit a drift in metabolic rate, body temperature and hormonal response typically occurring during continuous work. For this purpose in ten healthy men the heart rate (fc), rectal temperature (Tre), oxygen uptake (VO2), as well as blood metabolite and some hormone concentrations were measured during 2-h exercise at approximately 50% maximal oxygen uptake split into four equal parts by 30-min rest intervals during which body water losses were replaced. During each 30-min exercise period there was a rapid change in Tre and fc superimposed on which, these values increased progressively in consecutive exercise periods (slow drift). The VO2 showed similar changes but there were no significant differences in the respiratory exchange ratio, pulmonary ventilation, mechanical efficiency and plasma osmolality between successive periods of exercise. Blood glucose, insulin and C-peptide concentrations decreased in consecutive exercise periods, whereas plasma free fatty acid, glycerol, catecholamine, growth hormone and glucagon concentrations increased. Blood lactate concentrations did not show any regular drift and the plasma cortisol concentration decreased during the first two exercise periods and then increased. In conclusion, in spite of the relatively long rest intervals between the periods of prolonged exercise and the prevention of dehydration several physiological and hormonal variables showed a distinct drift with time. It is suggested that the slow drift in metabolic rate could have been attributable in the main to the increased concentrations of heat liberating hormones.
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PMID:Metabolic, body temperature and hormonal responses to repeated periods of prolonged cycle-ergometer exercise in men. 173 7

The effects of glucagon on water and electrolyte transport in the kidney were investigated on hormone-deprived rats, i.e. thyroparathyroidectomized diabetes insipidus Brattleboro rats infused with somatostatin. Glucagon consistently inhibited the reabsorption of water and Na+, Cl-, K+ and Ca2+ along the proximal tubule accessible to micropuncture, leaving the reabsorption of inorganic phosphate (Pi) untouched. In the loop, besides its previously described stimulatory effects on Na+, Cl-, K+, Ca2+ and Mg2+ reabsorption, glucagon strongly inhibited Pi reabsorption, very probably in the proximal straight tubule. These effects resulted in a significant phosphaturia and considerable reductions of Mg2+ and Ca2+ excretions. The effects of glucagon at both the whole kidney and the nephron levels are very similar to those previously described for calcitonin. In the absence of an adenylate cyclase system sensitive to glucagon and calcitonin in the rat proximal tubule, and from the analogy of their physiological effects with those elicited by parathyroid hormone, it is suggested that glucagon and calcitonin exert their inhibitory effects on Na and Pi reabsorption in the proximal tubule through another pathway, which could be the phosphoinositide regulatory cascade.
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PMID:Glucagon inhibits water and NaCl transports in the proximal convoluted tubule of the rat kidney. 177 68

In order to investigate the metabolic abnormalities in hyperosmolar diabetes from the viewpoint of insulin or glucagon, experimental hyperosmolar diabetes was produced by a combination of cortisol injection and water deprivation or only by the latter in streptozotocin-induced moderately hyperglycemic rat. They had a high blood glucose level and high plasma osmotic pressure. Fasting plasma insulin tended to decrease in the dehydrated state whether diabetic or not. Fasting plasma glucagon was increased to 0.047 +/- 0.009 nmol/l (P less than 0.05) in the non-diabetic dehydrated state (normal 0.026 +/- 0.004 nmol/l), and a similar high level of plasma glucagon was observed in the dehydrated diabetic rat (0.052 +/- 0.020 nmol/l), especially after cortisol treatment. In isolated rat islet, insulin released from the dehydrated diabetic rat at a high concentration of glucose was to some extent lower than that of diabetic rat, and released IRG vice versa. The insulin:glucagon ratio in the presence of high glucose was significantly lower in the dehydrated diabetic rat than in the normal rat (P less than 0.01). In the diabetic rat this ratio was not significantly different. This finding was also consistent with the results of in vivo experiments. Thus more catabolic hormonal changes were found in in vivo and in vitro studies in the hyperosmolar diabetic rat.
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PMID:Plasma insulin and glucagon and their release from pancreatic islet in hyperosmolar diabetic rat. 183 78

A single intake of mineral water Essentuki 17 by male Wistar rats (n-130, b. w. 180-250 g) leads to stress reactions. It is evident from elevated levels of ACTH, hydrocortisone, leuenkephaline, glucagon and gastrin. Course intake of the water brings about a rise in most of the hormones levels studied. However, single doses of Essentuki 17 inhibit production of hormones in the adrenals, hypophysis, hypothalamus, the system of endogenic opiates. The enhancement of relevant levels are noted in the gastroenteropancreatic system.
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PMID:[The adaptation reactions in hormonal systems to the internal use of mineral waters]. 183 21

We found that glucagon stimulated membrane protein kinase C (PKC) activity and phosphatidylcholine hydrolysis in 24 h-cultured rat hepatocytes. Phorbol myristate acetate, 8-bromo cyclic AMP, vasopressin, noradrenaline and the Ca2+ ionophore A23187 also stimulated membrane PKC activity. However, only vasopressin and noradrenaline stimulated inositol phosphate accumulation, whereas all agonists stimulated the rate of release of water-soluble choline metabolites into the medium. Choline, and to a much lesser extent phosphocholine, were released, suggesting predominantly phospholipase D activation. This was supported by the finding that the accumulation of phosphatidate and diacylglycerol was enhanced by the agents in [3H]myristate-labelled hepatocytes, as was [32P]phosphatidylethanol formation. Since the time courses for the release of choline into the medium and the accumulation of phosphatidate and diacylglycerol caused by vasopressin and glucagon were similar, the more rapid activation of PKC by vasopressin probably reflects diacylglycerol formation from phosphoinositide breakdown. The inability of glucagon to stimulate inositol phosphate production was not due to the prolonged culture, since similar results were obtained in 4 h cultures. We conclude that the stimulation of membrane PKC activity by glucagon correlates with accumulation of diacylglycerol and phosphatidate derived from the hydrolysis of phosphatidylcholine.
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PMID:Activation of membrane protein kinase C by glucagon and Ca(2+)-mobilizing hormones in cultured rat hepatocytes. Role of phosphatidylinositol and phosphatidylcholine hydrolysis. 185 65

The effect of two different regimens of intravenous infusion of amino acids on glomerular filtration rate (GFR), renal plasma flow (RPF), tubular sodium and water handling judged from the clearance of lithium (CLi), and plasma concentrations of angiotensin II (Ang II), aldosterone (Aldo), arginine vasopressin (AVP), atrial natriuretic peptide (ANP), growth hormone (GH), and glucagon was investigated in healthy humans. In the first protocol (n = 11) the infusion lasted 90 min; both GFR and RPF increased significantly (median increase 7.1% and 9.1% respectively, P less than 0.05 both). In the second protocol (n = 13) the infusion lasted 30 min; both GFR and RPF tended to increase (median increase 3.5% and 7.4%) but the change did not reach significance. The changes in tubular sodium and water handling were similar in the two protocols. Absolute reabsorption rates in the proximal tubules were unaltered, resulting in an increased output into the distal tubules that was totally compensated for by an increased distal reabsorption. Thus no changes in urinary excretion of sodium and water were observed. Ang II, Aldo, AVP, ANP and GH were unchanged by amino acid infusion, but glucagon increased. It is suggested that the alterations in renal haemodynamics and distal tubular reabsorption may be mediated by glucagon.
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PMID:Effect of two regimens of intravenous amino acid infusion on renal haemodynamics, renal tubular function and sodium and water homeostatic hormones in healthy humans. 187 82


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