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)

15 patients with formerly endogenous recurrent depression or manic-depressive illness free of psychotic symptoms, who are under lithium prophylaxis about 3,9 years, and 16 healthy controls with approximately the same age and sex were tested with 0,1 U Insulin/kg, 200 micrograms TRH and 50 micrograms LHRH for their hGH-, TSH-, hPRL-, FSH-, LH-and Cortisol levels about 2 hours. hPRL, FSH and LH did not show any change under lithium salts. All patients under lithium showed elevated TSH-levels under basal conditions and after stimulation compared with the control groups. For the young women before menopause the difference was highly significant. Men and praemenopausal women had significantly higher hGH-levels after stimulation under lithium than the normal controls. However postmenopausal women did not show this lithium effect on their hGH levels.
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PMID:[Neuroendocrinological changes under longterm therapy with lithium salts (author's transl)]. 11 22

Insulin accelerates the entry of glucose and amino acids into muscle cells by acting upon the 'carrier-facilitated' transport mechanism. For glucose this process is passive and leads to equilibration of intracellular and extracellular concentrations. In heart muscle, glucose transport is a rate-limiting step for glucose uptake. During hypoxia and ischemia the heart turns to anaerobic glycolysis for energy production and therefore, maximal glucose transport becomes important. Insulin is necessary to insure proper protein synthesis, probably at the level of membrane-bound polyribosomes. However, during myocardial hypoxia, insulin alone cannot restore the associated depression in protein synthesis. Although insulin hyperpolarizes the cell, a change in the ratio of intracellular to extracellular activities of potassium is not its primary mode of action. An insulin-induced configurational change in the plasma membrane could simultaneously account for the effects of insulin on sodium and potassium permeability and the action on facilitated transport. Intracellular levels of cyclic adenylate may be reduced by insulin in adipose tissue because of inhibition of adenyl cyclase or stimulation of phosphodiesterase. However, at this time there is little evidence that insulin alters cyclic AMP levels in the heart. Insulin secretion is depressed in patients with heart disease in proportion to the reduction of cardiac index sustained. Since the ischemic heart is dependent upon glucose as the major fuel, insulin lack may deprive the heart of adequate substrate.
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PMID:Insulin: fundamental mechanism of action and the heart. 18 67

Insulin was adsorbed to a strongly acidic ion exchanger and incubated with pepsin. The digestion of the matrix-bound insulin was found to be restricted to the cleavage of the peptide bond between phenylalanine-B25 and tyrosine-B26. Factionation of the reaction products was achieved by gel filtrationon Sephadex G-50 at pH 8 where des-pentapeptide(B26-30)-insulin does not aggregate. Another way to purify this compound was ion-exchange chromatography, which was easy due to the loss of one positive charge on the modified insulin. Crystallization could be achieved in a phenol-containing buffer. Des-pentapeptide(B26-30)-insulin was found to be molecularly uniform by electrophoresis at pH 2.2 and 8.6, thin-layer chromatography, performic acid oxidation, end group analysis and amino acid analysis. The CD-spectrum indicated conformational changes compared to insulin. The biological activity was considerably reduced: fat cell assay 20%, blood sugar depression 30%.
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PMID:[B-chain shortening of matrix-bound insulin by pepsin, I:Preparation and properties of bovine des-pentapeptide(B26-30) insulin (suthor's transl)]. 24 Jul 71

Insulin-induced hypoglycemia caused depression of rhythmic monosynaptic EPSP motoneurons of the lumbar cord in acute experiments on narcotized and spinal cats. It was demonstrated that growing depression of monosynaptic transmission was associated with the exhaustion of mediator operative fraction and not with any pre- or postsynaptic delay or inhibition over a period of initial hypoglycemia when the sugar content in the blood fell to the level of 50--60 mg%. The function disturbance of postsynaptic formations of monosynaptic reflex arc of spinal cord occured in more advanced hypoglycemia.
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PMID:[Monosynaptic reflexes of the cat spinal cord during the development of insulin hypoglycemia]. 43 22

An "endoneurial" preparation from a rabbit tibial nerve fascicle was used to study the ability of peripheral nerve axons and Schwann cells to derive their composite energy requirements from glucose, D-beta-hydroxybutyrate, or albumin-bound palmitate, and the effects of insulin in vitro on their composite glucose utilization. Samples incubated with 5 mM glucose for 2 h maintained a stable O2 uptake and P-creatine and ATP concentrations, and they exhibited a slight increase in P-creatine/creatine ratio (the electron microscopic appearance of the preparation was previously shown to be unaltered under these conditions). The rate of glucose oxidation required to account for the O2 uptake accounted for 61% of the glucose uptake. In samples incubated without substrate for 2 h, a marked fall in tissue glucose was associated with a 50% decrease in O2 uptake and with decreases in P-creatine, ATP, and in the P-creatine/creating ratio. In medium lacking glucose but containing 5 mM DL-beta-hydroxybutyrate, a stable rate of D-beta-hydroxybutyrate uptake was observed, and acetoacetate production accounted for only a small fraction; significant decreases in O2 uptake or ATP were prevented, and, although P-creatinde and the P-creatine/creatine ratio fell, they remained significantly higher than after incubation without substrate. An efficient blood-nerve barrier to albumin is known to exist. Medium containing albumin-bound palmitate with molar ratios or palmitate/albumin of 1 or 2 (highest FFA concentration, 1.32 meq/L) failed to prevent decreases in P-creatine, ATP, and in the P-creatine/creatine ratio during incubations without glucose; the associated O2 uptakes suggested that the tissue is susceptible to respiratory uncoupling and depression son exposure to albumin-blund palmitate as compared with non-neural tissue. Insulin (100 or 1000 microU/ml) had no detectable effects on glucose utilization in the endoneurial preparation during 2-h incubations with 5 mM glucose or (U-14C) glucose. In contrast, in epineurial tissue from rabbit sciatic nerve, insulin (100 micronU/ml) increased (U-14C) glucose incorporation into CO2 and total lipid. The neural components of peripheral nerve are probably dependent on glucose as their major substrate for energy production and respiration under most physiologic conditions in which elevated plasma ketone body concentrations are absent; their composite glucose utilization is not subject to acute, direct regulation by insulin in concentrations that might reasonably be derived from plasma insulin of pancreatic origin.
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PMID:In vitro studies of the substrates for energy production and the effects of insulin on glucose utilization in the neural components of peripheral nerve. 47 82

In this work we have evaluated the effects of blood sugar changes on human pancreatic polypeptide (hPP) secretion in young, healthy subjects. Mean fasting hPP level was 74 +/- 5 (SEM) pg/ml (n = 53). Insulin-induced as well as tolbutamide-induced hypoglycemia clearly provoked hPP secretion (peaks: 1201 +/- 370 pg/ml, P = 0.03, and 520 +/- 112 pg/ml, P = 0.005, respectively). In contrast, the induction of hyperglycemia by intravenous glucose infusion (0.6 g/min) elicited a significant depression of circulating hPP (37-49% of basal values); discontinuing the infusion resulted in an increase of hPP concentrations (peak: 519 +/- 141 pg/ml, P = 0.018), which coincided with the decline of blood sugar to sub-baseline levels. Glucose as an intravenous bolus (0.33 g/kg) also induced a fall in plasma hPP. Glucose ingestion (1.75 g/kg) was followed by a small and short lived elevation of hPP (154 +/- 34 pg/ml at 15 min, P = 0.04) and by a marked rise during the late hypoglycemic phase of the test (538 +/- 168 pg/ml at 120 min, P = 0.028). Finally, after intravenous arginine, a delayed increase of hPP values was observed, occurring subsequently to the plasma glucose drop. The foregoing data indicate that experimental fluctuations in glycemia inversely affect hPP secretion. Nevertheless, this relationship does not necessarily mean that hPP should be directly implicated in glucose homeostasis.
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PMID:Control of pancreatic polypeptide secretion by glucose in man. 75 16

It has previously been shown that nicotinic acid (NA)-induced depression of free fatty acids (FFA) stimulates the secretion of GH and glucagon. To evaluate this hormonal response further, we studied the influence of different doses of glucose administered by continuous iv infusion on the GH and glucagon increase during NA-induced FFA depression. In ten male non-obese volunteers, FFA depression by the infusion of NA (2.3 g over a period of 210 min) resulted in a late rise (from 150 min on) of GH (From 1.1 to 25.9 ng/ml) and an early increase (from 30 min on) of glucagon (from 71.7 to 138.2 pg/ml). When glucose was infused (approximately 60, 120 and 180 g, respectively, over a period of 270 min) during NA-induced FFA depression, the GH rise was reduced and delayed in relation to the amount of glucose infused, but could not be completely abolished (maximal GH concentration during the three NA-plus-glucose infusions: 16.5, 8.0 and 6.1 ng/ml, respectively). The glucagon rise was entirely reversed by the high glucose dose. Insulin did not rise during NA infusion alone. Its secretion in response to glucose infusion was not significantly influenced by FFA depression. Thus, during NA-induced FFA depression the secretion of two lipolytic hormones--GH and glucagon--is stimulated while the secretion of the lipogenetic hormone insulin remains low. Glucose has an inhibitory effect on the GH and glucagon response which, however, is different for each of the hormones.
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PMID:Growth hormone, glucagon, and insulin response to depression of plasma free fatty acids and the effect of glucose infusion. 83 44

Temporal patterns of plasma GH, immunoreactive insulin (IRI), and glucose were defined by obtaining serial blood samples from freely-moving male rats bearing chronic intracardiac venous cannulae. Blood was withdrawn every 15 min for periods of 6 h. Plasma GH and IRI were determined by radioimmunoassay. The typical ultradian rhythm of GH secretion was evident in each undisturbed animal (peaks greater than 200 ng/ml; troughs less than 1 ng/ml; mean period: 3.40 +/-0.08 h). Basal plasma IRI and glucose levels fluctuated minimally. There was no significant correlation between plasma GH and IRI, GH and glucose, or IRI and glucose levels in unfed rats. The rhythmic GH secretory patterns of feeding animals (mean period: 3.12 +/-0.16 h; peaks greater than 200 ng/ml; troughs less than 1 ng/ml) were similar to those of non-feeding animals (mean period: 3.34 +/-0.15 h; peaks greater than 200 ng/ml; troughs less than 1 ng/ml) despite large fluctuations in plasma IRI levels and a wide variation in the number and size of the meals taken. No consistent relation was observed between the ingestion of meals and the bursts of GH secretion. The mean period of the GH rhythm was not significantly altered by hyperglycemia (mean period; 3.25 +/- 0.08 h), although the amplitude of the pulses of half of the hyperglycemic rats was markedly depressed. Insulin-induced hypoglycemia caused a significant depression in the amplitude of the GH pulses; however, the pattern of this response was not consistent. Despite wide variability in the GH response, the magnitude and time course of recovery of the plasma glucose levels was similar in all animals. These results suggest that GH secretion in the rat is regulated primarily by an endogenous ultradian rhythm which is not dependent on changes in plasma glucose or IRI levels, and continues to function independently of feeding behavior. It is unlikely that GH is an important physiologic regulator of glucose homeostasis in this species.
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PMID:Ultradian growth hormone rhythm in the rat: effects of feeding, hyperglycemia, and insulin-induced hypoglycemia. 95 65

The effect of various doses of serotonin (5-HT) on the basal or insulin-stimulated gastric secretion was studied, for 4 hr after the injection, in unanesthetized rats with chronic gastric fistulas. The blood glucose and serum Na, K and Ca ions concentrations were also determined. Insulin produced hypoglycemia and hypokalemia, most pronounced in the first hr, and increased HCl and pepsin output, with a maximum at 2 hr after the injection. 5-HT significantly inhibited both basal and insulin-stimulated gastric secretion. The amine produced transient hyperglycemia, which was less pronounced in rats simultaneously receiving insulin. The inhibition of insulin-stimulated gastric secretion by 5-HT lasted for a longer period than the prevention of the biochemical changes brought about by insulin. The prevention by 5-HT of insulin hypoglycemia and hypokalemia may be of significant importance in the mechanism of the depression of insulin-stimulated gastric secretion.
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PMID:The influence of serotonin on insulin-stimulated gastric secretion, blood glucose and serum electrolyte levels in the unanesthetized rat. 116 2

Alloxan-diabetic mice of Swiss, CBA and DBA/2 strains show a significant depression of contact sensitivity to oxazolone, as compared with normoglycaemic control animals, which is accompanied by the involution of the thymus and spleen. Insulin treatment partially restores the contact sensitivity in diabetic animals and also increases the weight of lymphatic organs. In contrast, the non-specific inflammatory response to oxazolone is not impaired in insulin-deficient mice. Further experiments have shown that neither sensitized lymphocytes of control animals given to diabetic mice, nor sensitized lymphocytes of diabetic mice injected into normoglycaemic recipients, were able to transfer passively any significant contact sensitivity. It is suggested that in alloxan-diabetic mice the function of T lymphocytes is affected.
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PMID:Contact sensitivity in alloxan-diabetic mice. 121 3


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