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)

The effects of glucose-insulin-potassium (GIK) and placebo normal saline (S) infusion on treadmill-walking time to angina, ST depression, heart rate (HR), systolic blood pressure (SBP), rate pressure product (RPP), blood glucose (G), lactate (L) and free fatty acids (FFA) were studied in 14 non diabetic patients with exertional angina. For the whole group, the post-GIK walking time to angina (393 +/- 33 sec, mean +/- SEM) was greater than the values during control GIK (319 +/- 20 sec, p less than 0.02) and post-S infusion (334 +/- sec, p less than 0.05), but circulatory and ST responses were similar in post-GIK and post-S studies. 7 of the 14 patients experienced significantly greater improvement in exercise tolerance following GIK (467 +/- 39 sec) in comparison to control GIK (313 +/- 29 sec, p less than 0.001) and post-S infusion (334 +/- 32 sec, p less than 0.005) and exercised to a higher HR, SBP and RPP after GIK than after S infusion. At the onset of angina these patients had similar ST-segment depression before and after GIK but when ST segments were assessed after GIK at the same exercise duration when angina had occurred during the control and post-S studies, there was significantly less ST depression (p less than 0.01). Of the remaining 7 patients exercise tolerance following GIK deteriorated in 3, remained unchanged in 2 and increased by 12 and 48 sec in 2 patients in comparison to post-S values. Comparison of post-GUK and post-S values for G, L and FFA for the whole group showed significantly lower resting values of FFA and post-exercise values of G following GIK infusion. The differences in clinical and circulatory responses between patients who improved and those who did not improve following GIK were not related to the angiographically determined severity of coronary artery disease or to GIK-induced metabolic changes. Results suggest that some patients with angina pectoris do benefit from GIK infusion but the response in a given patient to this therapeutic modality is unpredictable.
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PMID:Effects of glucose-insulin-potassium infusion on the angina response during treadmill exercise. 38 19

After an intravenous glucose load in man, total serum amino acid concentrations are rapidly depressed and remain below baseline values for at least 2 to 3 hr after serum glucose and insulin have returned to preload concentrations. Despite the presence of basal hypoaminoacidemia, a decreased glucose disappearance rate, and hyperinsulinemia in volunteers who were ill with sandfly fever, an intravenous glucose load resulted in a further depression of serum amino acids which was equal to or slightly greater than that observed in the same individuals before exposure to the virus. Although the infectious process may have some effect on insulin-stimulated hepatic disposal of a glucose load, it does not appear to influence the ability on insulin to decrease the rate of release of certain amino acids from skeletal muscle.
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PMID:Effect of glucose infusion on the concentration of individual serum free amino acids during sandfly fever in man. 40 56

12 metabolically healthy subjects were i.v. administered equipotent doses (ED30) of tolbutamide (7.5 mg/kg), glisoxepide (0.02 mg/kg) and glibenclamide (0.006 mg/kg). Prior to and 2, 5, 8, 10, 20, 40, 60 and 120 min after the injection the following serum parameters were determined: blood glucose, immunologically measurable insulin (IMI) with the double-antibody method (Hales and Randle) and proinsulin (IMP) enzymatically (ISP-method). The maximum level of insulin follows the injection of tolbutamide with a value of 70.5 micronU/ml after 2 min, of glisoxepide after 5 min (67.0 micronU/ml) and of glibenclamide after 20 min (32.3 micronU/ml). The proinsulin fraction of the total insulin shows a level of 12.5 micronU/ml before the test. After the administration of the three compounds proinsulin increases, too, but reaches only 20-40% of the total immunoreactive insulin. The amount of secreted insulin and proinsulin during the 120-min test is rather the same for the three substances. The average increase of insulin is nearly identical for tolbutamide and glisoxepide, whereas it is less for glibenclamide. Both the mean blood sugar depression and the highest mean increase of proinsulin is reached after glisoxepide. The significance of the one-chain precursor of insulin as a part of the sulfonylurea stimulated total insulin for glucose depression is discussed.
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PMID:[Insulin and pro-insulin secretion following intravenous administration of tolbutamide, glisoxepide and glibenclamide]. 41 45

Arsenite but not oxamate produce in vitro a distinct depression of estrogen-dominated uterine motility, both in the absence of substrate as well as in the presence of exogenous glucose or lactate. The addition of oxamate to preparations suspended in a medium with lactate as the sole external substrate ameliorates the depression of uterine motility elicited by arsenic.
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PMID:Effects of aresenite and oxamate on the in vitro functional activity of estrogen-dominated rate uterine horns. 42 38

These investigations were designed to evaluate the effect of excess glucose and sodium chloride on lipolysis in the isolated adipocyte under normal and modelled pathological conditions simulating the hyperglycemic hyperosmolar syndrome. Isolated rat fat cells were incubated in the presence of various combinations of sodium chloride, glucose, epinephrine, and insulin. Lipolysis was measured as glycerol and free fatty acid release, and total medium osmolarity as milliosmoles per liter by freezing point depression. Basal lipolysis was unaffected by changes in osmolarity with sodium chloride, but glucose and glucose plus sodium chloride increased basal glycerol release. Increasing osmolarity with sodium chloride diminished the lipolytic response to epinephrine. Increasing osmolarity with glucose augmented the lipolytic response to epinephrine up to a total medium osmolarity of 550 mosmol. Higher osmolarities produced with glucose suppressed the epinephrine-induced lipolytic response.When the hyperglycemic hyperosmolar syndrome was simulated with 100 mM glucose and 50 mM sodium chloride (total osmolarity = 460 mosmol) the epinephrine-stimulated lipolysis dose-response curve in the isolated fat cell was shifted to the right. Furthermore, in the presence of 100 mM glucose + 50 mM sodium chloride, physiological concentrations of insulin were less effective in opposing epinephrine-stimulated lipolysis. In the presence of 50 mM glucose and 25 mM sodium chloride (total osmolarity = 370 mosmol) epinephrine-stimulated lipolysis measured as free fatty acid release was decreased by 50%. Under conditions simulating the hyperglycemic hyperosmolar syndrome in the isolated rat adipocyte, altered lipolysis reflects impaired effectiveness of both insulin and epinephrine as antilipolytic and lipolytic hormones, respectively. Furthermore, the attenuated response to both hormones appears to be primarily a function of extracellular solute composition. The lack of ketosis is the result of diminished release of free fatty acids from peripheral adipose cells.
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PMID:Simulated hyperglycemic hyperosmolar syndrome. Impaired insulin and epinephrine effects upon lipolysis in the isolated rat fat cell. 42 61

Five-day-old infant rats which acquire Haemophilus influenzae b bacteremia and meningitis after intranasal inoculation have a transient depression in weight gain (2 days), but then continue to grow at the same rate as strain U--11 inoculated controls. Brain lactate, glucose, and glycogen concentrations increase during the first 5 days of disease in infected animals. The increase in brain glycogen can be accounted for by an influx of glycogen containing polymorphonuclear leukocytes. The increased concentrations of glucose and lactate were found not to be due to a change in brain weight to dry weight ratio or the volume of entrapped blood. The mean cerebrospinal fluid (CSF) glucose concentration was higher in animals with meningitis (2.7 mM) in comparison to U-11 inoculated controls (1.8 mM). This increase in brain and CSF glucose concentration appeared secondary to an increased brain uptake of hexoses as manifested by an increased [3H]mannitol uptake. Brain lactate accumulation was not explicable from the data available. There was no evidence of cerebral cortical cellular damage because in vitro oxygen uptake and lactate production were equivalent in control and meningitic animals. The ability of the infant rat brain to maintain cerebral adenosine triphosphate (ATP) content in menigitis and the failure of CSF glucose concentration to decrease might be a reflection of the importance of alternative oxidative substrate (e.g., beta-hydroxybutyrate) to the cerebral metabolism of the developing rat brain.
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PMID:Brain carbohydrate metabolism during experimental Haemophilus influenzae meningitis. 43 2

The effect of fasting, glucose, and glucagon injection on pyruvate metabolism of rat liver mitochondria was studied. Fasting for 24 h caused a) a twofold increase in mitochondrial pyruvate uptake, b) fivefold increase in CO2 fixation, and c) no change in pyruvate decarboxylation. Injection of glucose to fasted rats 2 h prior to preparation suppressed by one-half the increase in mitochondrial pyruvate uptake and CO2 fixation and increased hepatic pyruvate content. Injection of glucagon together with glucose abolished the depression of pyruvate uptake by glucose but did not prevent the decrease in mitochondrial CO2 fixation or hepatic ketone content caused by glucose alone. The effects of insulin injection resembled that of glucose in decreasing hepatic ketone content, but differed by increasing pyruvate uptake without much change in CO2 fixation. It is concluded that the increase in gluconeogenesis induced by fasting is due to an increase in pyruvate uptake and carboxylation by hepatic mitochondria. The latter is due to the increased mobilization and oxidation of fatty acids induced by reciprocal changes in insulin and glucagon.
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PMID:Nutritional and hormonal regulation of pyruvate metabolism in the liver. 44 69

The importance of adhesion in regulating locomotion and accumulation of polymorphonuclear leukocytes (PMN) has remained vague. We found that the chemotaxis of human PMN resuspended in heat-inactivated plasma was maximal toward 1-10 nM N-formyl-met-leu-phe (f-Met-Leu-Phe), but fell below random motility toward >/= 100 nM. This impressive decrease of motility was paralleled by increased cell adherence on Petri dishes being minimal at 1 nM and maximal at >10 nM f-Met-Leu-Phe (6+/-1 and 37+/-2% [SE] adherent cells, respectively). Checked by phase-contrast microscopy, cells under stimulated adhesion lost the typical bipolar shape of moving PMN and became immobilized and highly flattened. PMN, preexposed to 250 nM f-Met-Leu-Phe and tested after washing, retained increased adhesiveness and showed extremely low random and chemotactic motility. In contrast, preexposure to 1 nM f-Met-Leu-Phe had no effect on chemotaxis. Supporting the concept that immobilizing hyperadhesiveness does not correspond to a general functional hyporesponsiveness of PMN, no depression of the initial ingestion rate was observed in the presence of 250 nM f-Met-Leu-Phe. Moreover, a close correlation was found between the induction of PMN adhesiveness and the stimulation of the hexose monophosphate pathway activity as well as of lysomal enzyme release (r >/= 0.98). Thus, "chemotactic deactivation" and "high-dose inhibition of chemotaxis" by N-formyl peptides is the consequence of increased cell adhesiveness. This phenomenon provides a mechanism for cell trapping at the inflammatory site. Conversely, if operative in circulating blood, e.g., in septicemia, it may impair PMN emigration to such sites.
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PMID:Modulating influence of chemotactic factor-induced cell adhesiveness on granulocyte function. 44 62

The effects of anion-transport inhibitors on volume reabsorption, and total CO(2) concentrations were examined by in vivo microperfusion of superficial proximal convoluted tubules of rats. The luminal perfusion solution was a high-chloride, low-bicarbonate solution like that in the in vivo late proximal tubule. The anion-transport inhibitors were only added to the luminal perfusion solutions. In tubules perfused with the control high-chloride solution, the rate of volume reabsorption (J(v)) was 2.3+/-0.2 nl/mm.min (n = 18), and the collected total CO(2) concentration was 4.0+/-0.3 mM. Furosemide (3 mM) caused a marked reduction in volume reabsorption to 0.8+/-0.3 nl/mm.min (n = 20) and only a slight increase in the total CO(2) concentration of collected samples of perfusate (7.8+/-0.5 mM). 0.8 mM acetazolamide caused a more pronounced rise in the collected total CO(2) concentrations to 10.7+/-0.5 mM but only a slight fall in J(v) to 1.7+/-0.3 nl/mm.min (n = 19). Hence, we inferred that inhibition of carbonic anhydrase only partially accounted for the inhibition of J(v) by furosemide. 4-acetamido-4'-iso-thiocyanato-stilbene-2,2'-disulphonic acid (0.1 mM), a well-characterized inhibitor of erythrocyte anion exchange mechanisms, also reduced J(v) to 1.6+/-0.3 nl/mm.min (n = 15) without changing the total CO(2) concentrations of the collected perfusates (3.6+/-0.4 mM). The effect of 4-acetamido-4'-iso-thiocyanato-stilbene-2,2'-disulphonic acid on volume reabsorption could not be explained by carbonic anhydrase inhibition because there was no increase in the total CO(2) concentration of the collected fluids. Furosemide did not significantly inhibit the rate of tracer glucose efflux out of the tubules, which suggests that the effect of furosemide on volume reabsorption was not a result of some nonspecific depression of active sodium transport. These results are discussed with respect to the possible effects of anion-transport inhibitors on the paracellular shunt pathway, active sodium reabsorption, and neutral sodium chloride transport.
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PMID:Effects of anion-transport inhibitors on NaCl reabsorption in the rat superficial proximal convoluted tubule. 45 69

Allyl isothiocyanate (AITC) is a constituent of several plants of the family Cruciferae that are commonly used as food. This study investigated the effect of feeding AITC to male Sprague-Dawley rats on their plasma glucose and uric acid levels as well as on the urinary concentrations of glucose, 17-ketosteroids (17-KS), creatinine, and uric acid. Other test compounds included were thyroxine (T4) and thiouracil (TU). AITC caused a highly significant (P smaller than or equal to 0.01) depression in the plasma glucose and uric acid levels compared with the control. TU caused a significant depression only of the plasma glucose. T4, on the other hand, significantly increased the levels of both glucose and uric acid. The AITC-treated rats voided twice as much urine as the controls or those receiving TU or injected with T4. The 24-h excretion of glucose, uric acid, and creatinine was significantly (P smaller than or equal to 0.01) higher in animals fed AITC than in those consuming the control diet, while the excretion of 17-KS was significantly lower. Results on an equal urine volume basis showed that differences in the excretion of glucose and creatinine were related to differences in the urine volume. TU significantly depressed excretion of all the compounds but glucose. The effect of T4 on the excretion of 17-KS and uric acid resembled that of AITC and TU, thus showing that these compounds depressed the androgenic function of the animal.
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PMID:Effect of allyl isothiocyanate on plasma and urinary concentrations of some biochemical entities in the rat. 46 77


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