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: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Insulin-induced hypoglycemia in normothermic rats caused progressive neurological depression and differentially altered regional cerebral acetylcholine metabolism. Reductions of plasma glucose from 7.7 mM (control) to 2.5-1.7 mM (moderate hypoglycemia associated with decreased motor activity) or 1.5 mM (severe hypoglycemia with lethargy progressing to stupor) decreased glucose concentrations in the cerebral cortex, striatum, and hippocampus to less than 10% of control. Moderate hypoglycemia diminished acetylcholine concentrations in cortex and striatum (21% and 45%, respectively) and reduced [1-2H2, 2-2H2]choline incorporation into acetylcholine (62% and 41%, respectively). Severe hypoglycemia did not reduce the acetylcholine concentration or synthesis in cortex and striatum further. The concentrations of choline rose in the cortex (+53%) and striatum (+130%) of animals that became stuporous but a similar rise in [1-2H2, 2-2H2]choline left the specific activities of choline in these structures unchanged. Even severe hypoglycemia did not alter the hippocampal cholinergic system. In rats that developed hypoglycemic stupor and were then treated with glucose, the animals recovered apparently normal behavior, and the concentrations of acetylcholine and the incorporation of [1-2H2, 2-2H2]-choline into acetylcholine returned to control values in the striatum but not in the cerebral cortex. Thus, impaired acetylcholine metabolism in selected regions of the brain may contribute to the early symptoms of neurological dysfunction in hypoglycemia.
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PMID:Regional acetylcholine metabolism in brain during acute hypoglycemia and recovery. 396 38

The hypothesis that depression of insulin and glucagon levels during rapid, acute hemorrhage is controlled by somatostatin was supported by hormonal changes measured in the cat. By 5 min of hemorrhage to 50 mmHg (1 mmHg = 133.322 Pa) arterial blood pressure, insulin and glucagon were severely depressed and somatostatin levels rose to 232% of basal levels. Insulin and glucagon suppression was maintained for the 30-min period of hemorrhage. Following return of the blood, somatostatin levels remained high and insulin and glucagon suppression was maintained. The data support, but do not prove, the hypothesis.
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PMID:A possible role for somatostatin in depression of insulin and glucagon levels during hemorrhage. 613 75

Heart sarcolemmal membranes were isolated by the hypotonic shock-LiBr treatment from rats with chronic diabetes induced by a streptozotocin (65 mg/kg, iv) injection. Sarcolemmal Mg2+-dependent ATPase activity was elevated, whereas 5'-nucleotidase and K+-p-nitrophenylphosphatase activities in diabetic heart were depressed in comparison to control preparations. Although patent Na+-K+-ATPase and patent ouabain-sensitive Na+-K+-ATPase activities were unaltered, latent Na+-K+-ATPase activities, as determined in membranes after alamethicin or deoxycholate treatments, were found to be significantly depressed in diabetic animals. A depression in the latent Na+-K+-ATPase activity in diabetic preparations was also observed in membranes prepared by the sucrose density gradient method. Insulin-treated diabetic rats were observed to have normalized latent Na+-K+-ATPase activities. Total phospholipid content did not differ, but cholesterol content of the sarcolemmal membranes was significantly increased in diabetic heart preparations. Sarcolemmal Na+-K+-ATPase activity in diabetic heart was more resistant to treatments with filipin, an agent known to bind with cholesterol residues. These results suggest that chronic experimental diabetes is associated with some defects in sarcolemmal enzymatic activities and composition.
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PMID:Sarcolemmal Na+-K+-ATPase activity in diabetic rat heart. 613 47

Incorporation of 3H-uridine by RNA in Tetrahymena was differently influenced by insulin, glucagon, follicle-stimulating hormone (FSH), thyrotropic hormone (TSH), adrenocorticotropic hormone (ACTH) and chorion-gonadotropic hormone (PMSG). TSH caused it to increase considerably and durably after an initial depression, while glucagon caused it to rise over the control throughout. Insulin, and especially PMSG, depressed the incorporation of label considerably, the latter to 3-6% of the control value by 120 min. ACTH and FSH accounted for an initial depression of RNA synthesis which, however, returned to normal 30 min after treatment. Remarkably, while the chemically similar hormones acted differently, insulin and glucagon showed the same trend of positive and negative influence, respectively.
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PMID:Effect of polypeptide hormones (insulin, thyrotropin, gonadotropin, adrenocorticotropin) on RNA synthesis in Tetrahymena, as assessed from incorporation of 3H-uridine. 618 2

The presence of elevated levels of circulating immune complexes in diabetic humans and animals suggests impaired phagocyte function. To evaluate FcR-mediated phagocytosis, resident peritoneal macrophages were harvested from control, streptozotocin-induced diabetic, and insulin-treated diabetic rats. FcR number and avidity were determined from Scatchard analysis of binding of 125I-labeled aggregated rat IgG (ARG) to macrophages. The total and fractional catabolic capacity were determined by quantitating the digestion of ARG as a percent of the total ARG added and as a percent of ARG bound. Insulin-deficient diabetic rats had an increase in the number of FcR per cell (26.8 +/- 3.5 X 10(4)) as compared with control animals (13.1 +/- 1.2 X 10(4)) (p less than 0.01). In contrast, insulin-treated diabetic animals had a reduction in the number of FcR per cell (9.8 +/- 1.4 X 10(4)) (p less than 0.01). FcR of macrophages from insulin-deficient diabetic rats had a lower avidity (Kd = 6.9 +/- 1.8 X 10(-10)M) when compared with control (3.7 +/- 0.6 X 10(-10)M) and insulin-treated diabetic rats (3.6 +/- 0.9 X 10(-10)M) (p less than 0.01). Total catabolism of ARG by macrophages from both insulin-deficient and insulin-treated diabetic rats was reduced (31.0% +/- 3.4 and 17.5% +/- 3, respectively) when compared with controls (49.6% +/- 5.2) (p less than 0.01). Fractional catabolism by macrophages from insulin-deficient diabetic rats was significantly reduced (21% +/- 1.9 and 4.6% +/- 0.9/10(4) FcR) when compared with results from control rats (26% +/- 1.3 and 6.7% +/- 0.7/10(4) FcR) (p less than 0.01), whereas the results from insulin-treated diabetic rats (32% +/- 2.4 and 10.8% +/- 1.0/10(4) FcR) (p less than 0.01) were greater than those from controls. These studies demonstrate that FcR-mediated phagocytosis of soluble, "model" immune complexes is impaired in macrophages from both insulin-deficient and insulin-treated diabetic rats; however, different mechanisms account for this impairment in phagocytosis. Despite an increase in FcR number of macrophages from insulin-deficient diabetic rats, the depression of post-receptor-mediated catabolism results in a net depression in phagocytic activity. In contrast, macrophages from insulin-treated diabetic rats display augmented post-receptor-mediated catabolism; however, this does not overcome the low initial binding of ARG to the cell that results from the depression of FcR number.
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PMID:Alterations in Fc receptor function of macrophages from streptozotocin-induced diabetic rats. 623 85

The pattern of spontaneous GH, TSH, T4, and T3 secretion has been studied in male rats in response to a 15-day period of streptozotocin diabetes or food restriction. Beginning at 0900 h, groups of control (C), food-restricted (FR), diabetic (D), and insulin-treated D rats were killed every 60-90 min for a 8-h period. Food restriction resulted in a significant depression of the GH, TSH, T4, and T3 peaks, whereas diabetes caused complete suppression of episodic secretion of each hormone. Insulin (6 U/100 g BW X day for 12 days) administration to D rats restored the normal pattern of secretion. In D and FR rats, pituitary GH concentrations were lower than in C rats, whereas pituitary TSH concentrations were similar to those in controls. Thus, as compared to C rats, FR and D rats showed an inhibition in GH, TSH, T4, and T3 secretion, most marked in D animals. Since diabetes is associated with a deficiency of circulating thyroid hormones, the potential roles of T4 and T3 on pituitary GH concentration and secretion in D rats were evaluated. Treatment of D rats with insulin (3 U/100 g BW X day), T4 (1.8 micrograms/100 g BW X day), or T3 (0.30 microgram/100 g BW X day) for 12 days resulted in a significant but limited increase in pituitary GH content. When administered together with insulin, the net effects of T4 or T3 with insulin appeared additive. T4 administration to D rats produced a significant though limited increase in plasma GH concentrations and weight gain, whereas both values were unaffected by T3. Simultaneous administration of T4 and insulin resulted in significant increased plasma GH concentration to levels greater than those in C rats. However, plasma GH levels in rats treated with T3 plus insulin were greater than those in D rats, but lower than in C animals. The results indicate that the decreased pituitary GH content of D rats can be corrected, at least in part, by T4 and T3.
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PMID:Diurnal variations of plasma growth hormone, thyrotropin, thyroxine, and triiodothyronine in streptozotocin-diabetic and food-restricted rats. 623 18

Insulin is apparently not required for VMH glucose oxidation in vitro. Ouabain, an inhibitor of the Na-K pump ATPase, does not prevent VMH glucose oxidation in vitro. These data suggest (a) the VMH does not exhibit a cotransport phenomenon of glucose with the Na-K pump mechanism, and (b) glucose oxidation in the VMH is not insulin dependent. Alloxan-diabetes was induced to increase tissue insulin sensitivity. A comparison of glucose oxidation rates in alloxan-diabetic VMH tissue and normal VMH tissue, supplemented only with saline, indicated a highly significant (p < 0.001) depression of glucose oxidation in the alloxan-treated tissue. Cell membranes in the VMH are perhaps altered by alloxan.
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PMID:Glucose oxidation in the ventromedial hypothalamus is not affected by insulin or ouabain but depressed by alloxan treatment. 625 92

Insulin-effects on adenylate cyclase activity, cyclic AMP (cAMP) content and free fatty acid (FFA) accumulation of rat epididymal fat cells were examined under conditions of maximal inhibition of phosphodiesterase by sufficient amounts of theophylline for the purpose of localizing the site of the antilipolytic action of insulin. After brief preincubation of the cells with physiological amounts of insulin in the presence or absence of 0.1 mM adrenalineee, fat cells were homogenized following the addition of theophylline and then further incubated. Under these conditions, small but significant enhancement of adenylate cyclase activity, cAMP content and FFA accumulation by insulin alone was observed, while insulin remarkably inhibited adrenalin-stimulated FFA accumulation, reducing adenylate cyclase activity and cAMP levels. This increase of cAMP content by insulin was only seen 5 or 15 minutes after the addition of theophylline. Furthermore, this insulin effect was also observed in the experiments which were performed in a medium containing high concentrations of albumin (2%). The concomitant accumulation of FFA might have resulted from the stimulation of lipolysis, rather than from the synthesis of FFA, since there was no added glucose in the medium. And finally, the hydrolysis of 14C-tripalmitate by a fraction of the cell homogenate under the presence of theophylline was more extensive after preincubation of the cells with insulin than without insulin. In summary, insulin, which is recognized as a typical antilipolytic hormone, activated adenylate cyclase and increased lipolysis at its physiological concentrations when it alone exerted its effect upon fat cells under the conditions where phosphodiesterase was completely inhibited by theophylline. Accordingly, the present results indicate the bimodal effect of insulin on adenylate cyclase and lipolysis under the presence of theophylline; enhancement when applied alone, and depression with adrenalin. So it is most likely that the "negative synergism" occurs as a net effect when a mild activator acts together competitively with a strong activator toward the same target. These data suggest the fundamental roles of adenylate cyclase systems in the mechanism of lipolysis regulation by insulin.
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PMID:[Insulin action on adenylate cyclase. The effect of insulin on adenylate cyclase of rat fat cells in the presence of theophylline]. 629 96

Insulin tolerance tests were carried out in chronically catheterised foetal pigs. The experiment was carried out 7 days after catheterisation. The foetuses were, therefore, considered to be free from the effects of anaesthetics and stress. Under these conditions growth hormone levels were high compared with post-natal growth hormone levels but, under the favourable conditions in this study, both growth hormone and ACTH levels were lower than those found in anaesthetised or stressed foetuses. By contrast, cortisol levels were somewhat higher than those mentioned in previous reports. Somatomedin activity measured by post-natal cartilage bioassay was low. Following iv insulin administration there was a marked depression in plasma glucose (P less than 0.01), an elevation in growth hormone (P less than 0.05) and an increase in ACTH (P less than 0.01). Levels of cortisol and somatomedins did not change significantly. From these data it is concluded that insulin is an hypoglycaemic factor in the foetal pig and that, for the most part, the foetal pig pituitary responds to an insulin challenge in a similar way to the post-natal pig.
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PMID:Glucose, growth hormone, somatomedin, cortisol and ACTH changes in the plasma of unanaesthetised pig foetuses following intravenous insulin administration in utero. 631 25

Isolated perfused hearts from diabetic rats exhibit a decreased responsiveness to increasing work loads. However, the precise time point at which functional alterations occur is not clearly established. Previous observations in our laboratory have suggested that the alterations in myocardial function are not apparent at 30 days whereas they are clearly seen 100 days after streptozotocin-induced diabetes. We studied the cardiac function of 6-week diabetic rats using the isolated perfused heart preparation. The 6-week time period was found to be sufficient to cause depression of myocardial function in these animals. We also studied the effect of insulin treatment on myocardial performance of diabetic rats. Insulin treatment was initiated 3 days and 6 weeks after injection of streptozotocin (STZ). The treatment was continued for 6 and 4 weeks in the respective groups. Hearts from 6-week diabetic animals exhibited a depressed left ventricular developed pressure (LVDP) and positive and negative dP/dt at higher filling pressures when compared with 6-week control animals. However, the depression was not seen in the 6-week insulin-treated diabetic animals. Ten-week diabetic rat hearts also showed a depression of LVDP and positive and negative dP/dt when compared with 10-week controls. The group of animals that had been diabetic for 6 weeks and then treated for 4 weeks with insulin exhibited a reversal of the depressed myocardial function. These results demonstrate that depression of myocardial performance, which is evident 6 weeks after diabetes is induced, can be prevented if insulin treatment is initiated as the disease is induced. Further, insulin treatment is capable of reversing the abnormalities after they have occurred.
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PMID:Prevention and reversal of altered myocardial function in diabetic rats by insulin treatment. 634 59


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