Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In a continuation of our studies on the mechanism of central nervous system induced hyperglycemia in the rat, we evaluated the relative contribution of a direct neural effect on the liver and of certain hormones to the hyperglycemia induced by administration of thyrotropin-releasing hormone (TRH). The findings were compared with those of a previous investigation using neostigmine or 2-deoxy-D-glucose. In the present study TRH was injected into the third cerebral ventricle of rats, and the concentrations of hepatic venous plasma glucose, immunoreactive glucagon, immunoreactive insulin, epinephrine, and norepinephrine, were measured. Four groups of animals were evaluated: (1) intact rats; (2) rats receiving an infusion of somatostatin with insulin via the femoral vein to inhibit glucagon secretion and to maintain the basal insulin level; (3) rats bilaterally adrenalectomized (ADX) to prevent epinephrine secretion, and (4) ADX rats administered an infusion of somatostatin and insulin. Evaluation of the areas under the glucose curves for the rats receiving somatostatin with insulin, ADX rats, and ADX rats receiving somatostatin with insulin showed values 202, 50, and 79% of those observed in intact animals. These observations suggest that TRH-induced hyperglycemia results from at least two effects: a direct neural effect on the liver including a suppressive effect of epinephrine on insulin secretion (contributing about 79% to the total hyperglycemic effect) and a direct effect of epinephrine on the liver (contributing about 21% to the total hyperglycemic effect).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relative contribution of nervous system and hormones to hyperglycemia induced by thyrotropin-releasing hormone in fed rats. 168 38

A single subcutaneous administration of monosodium aspartate (MSA) to 30 neonatal voles, Microtus arvalis Pallas, induced a diabetes mellitus in 50% of the treated animals in early adulthood. The voles (18 males and 12 females) were weaned at 3 weeks of age and fed pellets for Herbivora and cubed hay. Diabetic voles with glycosuria (nine males and six females) were classified into two groups according to the duration and grade of glycosuria. One group had slight diabetes with glycosuria (+: 0.1%) for 1 week and the other severe diabetes with marked glycosuria ( : greater than or equal to 0.5%) for over 4 weeks. Pancreatic islets of diabetic voles (n = 7) were examined immunohistochemically, light microscopically, and electron microscopically. Blood glucose concentration and tissue content of insulin, glucagon, and somatostatin were also measured. Slightly diabetic voles (n = 3) had enlarged islets, that, viewed by light microscopy, were characterized by hypertrophy and hyperplasia of beta cells with moderate degranulation. No changes were observed in the peripherally located alpha and delta cells; the voles were moderately hyperglycemic, and they had decreased pancreatic insulin content. Severely diabetic voles (n = 4) that had marked hyperglycemia and almost complete loss of insulin content showed marked vacuolation and degranulation of beta cells. In addition, altered distribution of alpha and delta cells from the periphery of the islets to their interior was noted. Ultrastructural examination revealed features compatible with those of hyperfunction of beta cells in the slightly diabetic voles and marked degeneration of beta cells with glycogen accumulation in the severely diabetic voles.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunohistochemical, ultrastructural, and hormonal studies on the endocrine pancreas of voles (Microtus arvalis) with monosodium aspartate-induced diabetes. 168 74

The content of insulin, C-peptide, glucagon, somatostatin, and glucose was studied in the blood of animals experiencing 3, 10, 30, 70, and 140-day hypokinesia (HK) and the cAMP content--in their liver and renal cortex. It was found that in 3-day HK insulin production and catabolism are sharply stimulated, the glucagon and glucose content is increased, the somatostatin level is reduced, and cAMP content in the liver and kidneys is reduced. Ten-day HK is characterized by hyperglycemia, an almost normal hormone content, and increased cAMP level in the renal cortex. In 30-day HK the blood insulin and glucagon content, the content of cAMP in the liver and renal cortex are sharply increased, and the level of somatostatin and glucose is reduced. In 70-day HK the content of glucose and hormones in the blood is reduced, the cAMP level in both organs does not differ from that in the controls. In 140-day HK the concentration of insulin and glucagon in the blood of the animals increases significantly and the level of glycemia normalizes, evidently through increase of cAMP in the liver and kidneys.
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PMID:[The function of the pancreatic islet cells during prolonged hypokinesia]. 168 3

The dynamic study of somatostatin secretion was performed in patients with insulin-dependent diabetes mellitus and age- and sex matched volunteers. The basal levels of immunoreactive somatostatin, as well as its response to i.v. Glucagon (1 mg) at 10 and 20 min with consequent hyperglycemia were increased in most of diabetic patients as compared with the healthy controls. Our results suggest that the glucagon test could be used for estimating the somatostatin secretion in diabetes mellitus. This would reveal some impaired interactions between the endocrine function of the pancreas in diabetes mellitus.
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PMID:Increased somatostatin response to glucagon in insulin-dependent diabetes mellitus. 168 18

Although it is agreed that autoimmune destruction of pancreatic islets in diabetic BB rats is rapid, reports of endocrine cell content of islets from BB diabetic rats at the time of onset of diabetes vary considerably. Because of the rapid onset of the disease (hours) and the attendant changes in islet morphology and insulin secretion, it was the aim of this study to compare islet beta-cell numbers to other islet endocrine cells as close to the time of onset of hyperglycemia as possible (within 12 h). As it has been reported that hyperglycemia renders the beta cell insensitive to glucose, the early effects of different levels of insulin therapy (well-controlled vs. poorly controlled glycemia) on islet morphology and insulin secretion were examined. When measured within 12 h of onset, insulin content of BB diabetic islets, measured by morphometric analysis or pancreatic extraction, was 60% of insulin content of control islets. Despite significant amounts of insulin remaining in the pancreas, 1-day diabetic rats exhibited fasting hyperglycemia and were glucose intolerant. The insulin response from the isolated perfused pancreas to glucose and the glucose-dependent insulinotropic hormone, gastric inhibitory polypeptide (GIP), was reduced by 95%. Islet content of other endocrine peptides, glucagon, somatostatin, and pancreatic polypeptide, was normal at onset and at 2 weeks post onset. A group of diabetic animals, maintained in a hyperglycemic state for 7 days with low doses of insulin, were compared with a group kept normoglycemic by appropriate insulin therapy. No insulin could be detected in islets of poorly controlled diabetics, while well-controlled animals had 30% of the normal islet insulin content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin secretion and islet endocrine cell content at onset and during the early stages of diabetes in the BB rat: effect of the level of glycemic control. 178 6

To determine whether CNS regulatory pathways are organized so that differential sympathetic outflow patterns occur in response to stress, we injected various doses of neostigmine or bombesin into the third cerebral ventricle of fed rats, and then measured the hepatic venous plasma concentrations of glucose, glucagon, insulin, and epinephrine. The following four groups of rats were studied. Group 1 was intact rats. Group 2 comprised intact rats receiving the constant infusion of a) somatostatin to inhibit the endogenous secretion of insulin and glucagon, and b) insulin to maintain the plasma insulin concentration at basal levels. The infusion was started from -30 minutes and given via a catheter in the femoral vein. Group 3 consisted of rats that underwent bilateral adrenal medullectomy (ADMX) one week before the experiment. Group 4 was ADMX rats administered a constant infusion of somatostain with insulin through a femoral vein, as above. The administration of 1 x 10(-9) mol neostigmine caused hepatic venous hyperglycemia mediated by three distinct pathways: 1) direct innervation of the liver, 2) a direct action of epinephrine on the liver, and 3) the action of glucagon on the liver. We estimated the relative contribution of these three factors to be about 47, 32, and 21%, respectively. Relative contributions of three factors of the doses of 5 x 10(-9) and 5 x 10(-8) mol neostigmine demonstrated an effect similar to that of 1 x 10(-9) mol neostigmine. Epinephrine was shown to be the only agent involved in the hyperglycemic response to intraventricular bombesin at doses of 1 x 10(-10), 1 x 10(-9), and 1 x 10(-8) mol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relative contribution of nervous system and hormones to CNS-mediated hyperglycemia is determined by the neurochemical specificity in the brain. 180 63

Muscle can utilize glucose by two different mechanisms, one non-insulin-mediated and the other insulin-mediated. The aim of this study was to investigate and to quantify the influence of high and low free fatty acids (FFA) levels on muscle non-insulin-mediated glucose uptake (MNIMGU) and muscle insulin-mediated glucose uptake (MIMGU) and on muscle metabolism during euglycemia and hyperglycemia. Six healthy volunteers were submitted, in a random order, to a 2-hour euglycemic clamp (EC) followed by a 2-hour hyperglycemic (11 mmol/L) clamp (HC) under five different conditions: (1) somatostatin infusion (SRIF, 500 micrograms/h); (2) SRIF infusion preceded by a nicotinic acid analogue (acipimox, 250 mg orally, (3) SRIF plus insulin infusion; (4) SRIF plus insulin plus intralipid infusion; and (5) SRIF plus insulin infusion plus acipimox. In the postabsorptive state MNIMGU represented 71% of the total muscle glucose uptake (MGU) and during the EC a sharp reduction of FFA levels increased the MNIMGU by 10% (P less than .05), and an acute increase in FFA levels decreased the MNIMGU by 26% (P less than .05). MIMGU was significantly increased by 103% after acipimox administration (P less than .05) and was decreased by 65% during intralipid infusion (P less than .05). During HC, MNIMGU was not significantly influenced by low or high FFA levels, and MIMGU was not affected by a sharp lowering of FFA levels, but was significantly decreased (85%) during intralipid infusion. There was no significant difference in the lactate, pyruvate, and alanine balance across the forearm during EC and HC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Forearm insulin- and non-insulin-mediated glucose uptake and muscle metabolism in man: role of free fatty acids and blood glucose levels. 189 58

Insulin receptor function, glycogen synthase activity, and activation by phosphatases were studied in biopsies of human skeletal muscle under conditions of hyperglycemia and/or hyperinsulinemia for 150 minutes. Twenty-one healthy volunteers underwent either (A) a hyperinsulinemic, euglycemic clamp (serum insulin, 160.0 +/- 7.7 mU/L; plasma glucose, 4.9 +/- 0.1 mmol/L; n = 9), (B) a hyperglycemic clamp during normoinsulinemia (serum insulin, 18.1 +/- 3.3 mU/L; plasma glucose, 12.9 +/- 0.2 mmol/L; n = 6), or (C) a combined hyperinsulinemic, hyperglycemic clamp (serum insulin, 158.3 +/- 15.0 mU/L; plasma glucose, 11.4 +/- 0.8 mmol/L; n = 6). During all studies, the endogenous insulin secretion was inhibited with somatostatin. Insulin binding and kinase activity of insulin receptors solubilized from vastus lateralis muscle biopsies were unaffected by hyperglycemia and/or hyperinsulinemia. Hyperinsulinemia activated the muscle glycogen synthase with a decrease in the half-maximal activation constant (A0.5) for glucose-6-phosphate (G6P) from 0.53 +/- 0.04 to 0.21 +/- 0.02 mmol/L (study A, P less than .02) and from 0.53 +/- 0.06 to 0.19 +/- 0.05 mmol/L (study C, P less than .03). In addition, the rate of glycogen synthase activation by phosphatases increased from 0.078 +/- 0.017 to 0.134 +/- 0.029 U/min/mg protein (study A, P less than .03) and from 0.082 +/- 0.013 to 0.145 +/- 0.033 U/min/mg protein (study C, P = .05). Hyperglycemia during normoinsulinemia did not affect A0.5 or phosphatase activity. In conclusion, (1) hyperinsulinemia for 2 1/2 hours increases glycogen synthase activity and activation by phosphatases independently on the glycemia; and (2) insulin receptor binding and basal and insulin-stimulated receptor kinase activity are not modified during short-term hyperinsulinemia and/or hyperglycemia.
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PMID:Effects of hyperinsulinemia and hyperglycemia on insulin receptor function and glycogen synthase activation in skeletal muscle of normal man. 190 47

To examine the glucoregulatory responses to stress and their impact on diabetes, we used the following models of stress: A) Hypoglycemia; B) Epinephrine infusion; C) intracerebroventricular (ICV) injection of carbachol, an analog of acetylcholine. A) Hypoglycemia induces release of all counterregulatory hormones. During acute hypoglycemia, glucose production increases initially mainly due to glucagon release but eventually also due to a very large increment in catecholamines. In newborn dogs, neither epinephrine nor glucagon respond to a decrease in plasma glucose. This lack of a safeguard against hypoglycemia may indicate that the brain in pups is less dependent on a normal supply of glucose as a fuel, than in adult dogs. Counterregulation is enhanced when the effects of endogenous opiates are blocked by naloxone, indicating that endogenous opiates play a regulatory role during hypoglycemia. However, beta-endorphins which can be released with epinephrine during various stress situations, potentiate the peripheral effect of epinephrine. Glucoregulatory responses, even to slight changes in plasma glucose, are greatly enhanced during glucocorticoid treatment. This apparently reflects the greater sensitivity of the liver to glucagon. In diabetic dogs, similar to human diabetics, the glucagon response is abolished and the response of the catecholamines is partially decreased. On the basis of histological studies, we proposed that the deficient glucagon response in diabetes could be related to an increase in the somatostatin-glucagon ratio in the diabetic pancreas. This ratio is further augmented when normoglycemia is maintained with insulin. In response to a decrease in plasma glucose, there is a biphasic increment in glucose production in normal dogs, which is missing in diabetes. When normoglycemia is restored in diabetic dogs with phlorizin treatment, the second but not the first increment in glucose production is restored. We postulated, therefore, that the toxic effect of hyperglycemia, in addition to the lack of glucagon response, is the main reason why in diabetes, glucose production cannot respond promptly to a decrease in plasma glucose. The low rate of metabolic clearance of glucose seen in diabetes in the post-absorptive state, also reflects, at least in part, the toxic effect of glucose, because with acute normalization of glucose with phlorizin, metabolic glucose clearance substantially improves. Hyperglycemia is the main reason for the decreased number of glucose transporters in diabetic muscle. B) Epinephrine infusion in normal dogs mimics some effects of stress, in that it increases glucose production, inhibits metabolic glucose clearance and increases lipolysis. These metabolic effects of epinephrine are independent of glucagon release.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effect of stress on glucoregulation in physiology and diabetes. 192 81

The in vivo suppressive effect of glucose and insulin on plasma free fatty acid concentrations was investigated in obese subjects with (n = 6) and without (n = 6) Type 2 (non-insulin-dependent) diabetes mellitus during a 4h-hyperglycemic glucose clamp (about 11.2 mmol/l). Somatostatin was infused (250 micrograms/h) during the third h of glucose clamp to inhibit glucose-stimulated insulin secretion. Plasma insulin values were similar in the two groups at fasting and all throughout the study (F = 0.04; p = NS, two way analysis of variance), while the amount of glucose metabolized during the clamp was lower in diabetic subjects. Plasma free fatty acid concentrations, which were similar in the two groups at fasting, decreased during hyperglycemia and glucose-induced hyperinsulinemia (0-120 min; 180-240 min), and rose during hyperglycemia and somatostatin-inhibited insulin secretion (120-180 min). However, plasma free fatty acid concentrations were significantly higher in diabetic subjects all along the study period both in absolute terms (F = 11.4; p less than 0.0001) and when individual data were recalculated as percent of fasting value (F = 13.3; p less than 0.0001). Our data suggest that suppressibility of fasting plasma free fatty acids is lower in obese Type 2 diabetes in comparison with obese non-diabetic subjects.
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PMID:Glucose and insulin suppression of plasma free fatty acids in obese subjects with normal glucose tolerance or mild, newly diagnosed type 2 (non-insulin-dependent) diabetes. 196 30


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