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)

Renal prostaglandins have been implicated in the regulation of blood pressure. We have therefore compared prostaglandin metabolism in the kidneys of spontaneously hypertensive rats (SHR's) of the Aoki-Okamoto strain and normotensive Wistar-Kyoto (WKY) controls. The microsomal fraction of the renal medulla contained most of the prostaglandin synthetase activity in both groups; SHR's had significantly higher enzymatic activity than their normotensive controls at age 10 wk and thereafter; furthermore, synthetase activity in SHR's increased with age. Two forms of 15-hydroxyprostaglandin dehydrogenases were demonstrated: an NAD+-dependent form which was localized mainly in the cortex and an NADP+-dependent form, higher in the medulla. The activities of these enzymes were lower in the hypertensive animals at all ages studied; this depression was more pronounced for the NAD+-dependent dehydrogenase. The results indicate that, in hypertension, renal prostaglandin metabolism is altered so that enhanced synthesis is accompanied by decreased degradation rate.
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PMID:Prostaglandin metabolism in the kidneys of spontaneously hypertensive rats. 1 24

The concentrations of cytoplasmic lactate and pyruvate and the NAD+/NADH ratio and the concentrations of mitochondrial acetoacetate, beta-hydroxybutyrate, and the NAD+/NADH ratio were determined in normal, fed, and fasted rats, and in rats infected with Streptococcus pneumoniae, Francisella tularensis, and Salmonella typhimurium. The various infections were found to have little or no effect on the cytoplasmic parameters. In normal rats, fasting caused a marked increase in blood and hepatic ketone concentration and in serum free fatty acid content. Fasted infected rats, however, did not show the increase in ketone bodies or serum free fatty acids normally associated with fasting alone. The mitochondrial NAD+/NADH ratio increased as the infections progressed, reversing the normal trend. The introduction of an infection during the fasting state when ketone bodies and serum free fatty acids were elevated caused a marked depression in their concentration. These data have led to a postulation of decreased lipolysis in the infected host to account for the lowered hepatic and blood ketone bodies and the decreased level of serum free fatty acids.
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PMID:The effect of bacterial infections on ketone concentrations in rat liver and blood and on free fatty acid concentrations in rat blood. 18 58

Male, pathogen-free Fischer 344 rats aged 6 and 24 mo were exposed to 1.5 or 3.0 ppm for 8 h and recovery rates of diphosphonucleotides (NAD+ and NADH) and triphosphonucleotides (NADP+ and NADPH) were measured and compared to controls. Recovery after 0.5 ppm was not examined because no significant changes occurred in either age group after this lower exposure. At zero time (immediately after exposures) both concentrations are depressed in adults and aged animals except for NADH in aged animals at 3.0 ppm; NADP+ in adults at 1.5 and 3.0 ppm was decreased, but not significantly. For NAD+ and NADH, recovery of whole lung concentrations is complete by 24 h following an 8-h exposure to 1.5 or 3.0 ppm of ozone. Only after 3.0 ppm of ozone was the ratio of the reduced to oxidized form (NADH/NAD+) still elevated after 24 h; however, it also returned to control levels by 96 h. For the triphosphonucleotides, an 8-h exposure to 1.5 ppm of ozone resulted in a sustained depression of whole lung concentrations of NADPH throughout the 96-h recovery period. Also, only after the 1.5 ppm exposure was the reduced to oxidized ratio (NADPH/NADP+) significantly depressed throughout the 96-h recovery period. Unexpectedly, recovery of whole lung levels returned to normal within 24 h after the 8-h exposure to both the 1.5 and the 3.0 ppm concentrations. With the exception of the sustained effect on NADPH levels, these data indicate that di- and triphosphonucleotide concentrations rapidly return to normal in the lung after severe, acute oxidant injury. There were no differences in recovery rates between the adult and the aged groups.
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PMID:Recovery of lung pyridine nucleotides following acute exposure of adult and aged rats to ozone. 183 64

The use of fluorescent calcium indicator, Indo-1, was evaluated for measuring changes in intracellular free calcium during electrical stimulation and anoxia in hippocampal slices. Fluorescence was measured from slices illuminated with brief (3 ns) light pulses (337 nm wavelength) from a nitrogen laser. This method of illumination produced more intense fluorescence than illumination with light from filtered xenon or mercury arc lamps, and prevented loss of electrical excitability encountered following continuous UV illumination. Background fluorescence in control slices (without Indo-1) was considerable, often approaching 50% of that obtainable after dye loading. A more serious concern, however, was that a large fraction (approximately 10%) of the background fluorescence was labile to both electrical stimulation and anoxia. This fluorescence results from changes in the reduction/oxidation (redox) state of nicotinamide adenine dinucleotide (NAD), which fluoresces in its reduced (NADH) but not oxidized (NAD+) form. Qualitative changes in free calcium could be measured by first determining the ratio of change in NADH fluorescence at 405 and 485 nm (the wavelengths of light used to measure calcium with Indo-1) prior to dye loading. Any arbitrary baseline could be selected as long as the ratio for the baseline at 405 and 485 nm was identical to that determined for labile NADH. By application of this compensation procedure, it was determined that intracellular calcium rose abruptly during the onset of anoxia and again during the spreading depression-like loss of ion homeostasis which inevitably occurred during anoxia in these slices.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Indo-1 measurements of intracellular free calcium in the hippocampal slice: complications of labile NADH fluorescence. 272 10

Synaptosomes isolated from rat cerebra were used to study the effects of the inhalational anesthetic, halothane, on cholinergic processes. To identify possible mechanisms responsible for the depression of acetylcholine synthesis, we examined the effects of halothane on precursor metabolite metabolism involved with supplying the cytosol with acetyl-CoA for acetylcholine synthesis. Three percent halothane/air (vol/vol) depressed 14CO2 evolution from labeled pyruvate and glucose. Steady-state 14CO2 evolution from [1-14C]glucose was depressed 84% by halothane, while 14CO2 evolution from [6-14C]glucose and [3,4-14C]glucose was decreased 67 and 52%, respectively, when compared with control conditions. Halothane inhibited the activities of both pyruvate dehydrogenase (14% depression) and ATP-citrate lyase (32% depression). Total synaptosomal acetyl-CoA concentrations were unaffected by halothane. Three percent halothane/air (vol/vol) caused a 77% increase in medium glucose depletion rate from 1.38 nmol (mg protein)-1 min-1 to 2.44 nmol (mg protein)-1 min-1. Production of lactate by the synaptosomes in the presence of halothane increased by 231% from a control rate of 1.44 nmol (mg protein)-1 min-1 to 4.77 nmol (mg protein)-1 min-1. Lactate production rate from pyruvate was also enhanced by 56% in the presence of halothane. These data lend support to the concept that the NAD+/NADH potential may be involved in the halothane-induced depression of acetylcholine synthesis.
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PMID:Halothane-induced alterations of glucose and pyruvate metabolism in rat cerebra synaptosomes. 392 66

The objective of the present study was to assess metabolic changes in the neocortex and hippocampus of well-oxygenated or moderately hypoxic rats in which fluorothyl-induced seizures were sustained for 5 or 20 min, or which were allowed recovery periods of 5, 15, or 45 min following cessation of 20-min seizure activity by withdrawal of the convulsant gas. Sustained fluorothyl-induced seizures were found to cause metabolic alterations qualitatively and quantitatively similar to those previously observed with other commonly used convulsants. Thus, although the phosphorylation state of the adenine nucleotide pool remained only moderately perturbed, if at all, there were decreases in tissue concentrations of phosphocreatine and glycogen, and increases in those of cyclic AMP, lactate, and pyruvate, with a calculated fall in intracellular pH of about 0.15 units and a rise in the cytoplasmic NADH/NAD+ ratio. The enhanced metabolic rate was reflected in a marked reduction in the tissue-to-plasma glucose concentration ratio. Induced moderate hypoxia (arterial PO2 40-50 mm Hg) had no metabolic effect after 5 min of seizures but moderately increased lactate concentrations after 20 min (from about 10 to about 15 mumol X g-1). On cessation of seizure discharge cyclic AMP and phosphocreatine concentrations normalized already within 5 min, whereas glycogen and lactate concentrations normalized more slowly. In the neocortex (but not the hippocampus) postepileptic tissue-to-plasma glucose concentration ratios rose above control, probably reflecting metabolic depression. The results suggest that intracellular pH promptly returned to control, and that postepileptic alkalosis developed. They also suggest that some elevation of the NADH/NAD+ ratio persisted even after 45 min of recovery.
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PMID:Cerebral metabolic changes during and following fluorothyl-induced seizures in ventilated rats. 398 40

The initial cellular reaction against the deleterious effects of shock-inducing stimuli apparently elevates the energy-producing capacity so that the cell is able to sustain its normal function. Several endocrine events are fundamentally important as triggering factors for this kind of reaction. As the shock state advances, cellular metabolism deteriorates progressively and cellular energy is exhausted. Depression of intracellular cAMP may induce cellular metabolic unresponsiveness to hormonal stimuli. Consistent degradation of high-energy substances, extreme deviation of the redox state in the NAD+-NADH system, and decrease of endogenous key substances such as L-carnitine ultimately may lead to a standstill of cellular enzymatic reactions (Fig. 13). Methods intended to sustain cellular membrane and enzymatic systems may offer the best contribution to the improvement of shock therapy.
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PMID:Metabolic deterioration in shock state and its modulation. 630 80

The chronic ingestion of ethanol results in liver-cell damage, and characteristic features of this injury are the marked alterations in both the functions and morphology of the mitochondria. Morphologically, the changes observed in human alcoholics and experimental animals appear similar. Bizarrely shaped mitochondria and megamitochondria are detected at the fatty liver stage and persist as the disease progresses. As yet, however, no correlation has been found between the severity of these morphological changes and the development of cirrhosis. Analysis of the mitochondrial membranes indicates that ethanol consumption produces changes in both the protein and lipid composition of the membrane. Profound decreases in the components of the respiratory chain have been detected, and these changes are associated with marked depressions in the activity of NAD+-linked dehydrogenases, cytochrome oxidase, and the ATP synthetase complex. On the other hand, no consistent pattern has emerged as to the effect of chronic ethanol consumption on the composition of the membrane phospholipids. Many of the changes appear to be dependent on the sex of the animal, the dietary status, and the duration of ethanol intake, and are suggestive of changes in fatty acid desaturase activity. Mitochondria isolated from ethanol-fed rats displayed impaired respiration and a lowered steady-state rate of ATP synthesis. Whether or not these functional changes are directly related to alterations in the physical properties of the membranes remains to be resolved. This marked depression of respiratory functions in isolated mitochondria was not reflected by a significant decrease in O2 consumption by the livers of ethanol-fed animals.
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PMID:Alcohol-induced mitochondrial changes in the liver. 672 59

The cerebral metabolic effects of intravenous administration of 1000 mg/kg gamma-hydroxybutyrate (GHB) were studied by sequential measurement of the cerebral contents of selected glycolytic-citric acid cycle intermediates and energy phosphates in lightly anesthetized rats. The initial change in the glycolytic pathway occurred by 2.5 min, with increases of tissue glucose-6-phosphate and decreases of fructose-1,6- diphosphate which indicated an inhibition of phosphofructokinase. This pattern was transient and was replaced at 5--15 min by increasing tissue glucose and decreasing glucose-6-phosphate which indicated an inhibition of hexokinase. The initial inhibition of phosphofructokinase was associated with functional depression, an isoelectric EEG and an increase of the tissue phosphocreatine which suggested that the observed metabolic pattern was an adaptation to the reduced energy needs of neuronal depression. Within 2.5 min of GHB injection tissue alpha-ketoglutarate and aspartate showed significant increases which suggested a shift in the aspartate aminotransferase reaction. Preliminary calculations indicated that the probable cause of this shift was an increase in oxaloacetate content due to GHB oxidation. The cytoplasmic NADH/NAD+ ratio remained unchanged throughout the entire exposure to GHB (2.5--180 min) and thus gave no support for the hypothesis that GHB interfers with glycolysis via the restriction of free cytoplasmic NAD+ required for the glyceraldehyde phosphate dehydrogenase step.
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PMID:Sequential alterations of cerebral carbohydrate metabolism associated with gamma-hydroxybutyrate. 735 98

Conditions to induce and parameters to evaluate sublethal oxidative stress of cultured human fibroblasts have been investigated in the attempt to identify markers for a more accurate quantification of cell injury. Sublethal oxidative stress was obtained by treating fibroblasts with 0.5 mM H2O2 in DMEM plus 5% FCS for times not exceeding 60 min. Under these conditions cells remained viable throughout long-term incubation, showing no appreciable release of cytosolic enzymes into the medium. On the contrary, exposures of fibroblasts to 0.5 mM H2O2 for times > 60 min induced a lethal cell injury which was fully expressed 2 days later by massive monolayer wasting and leakage of cytosolic components. Early metabolic effects of sublethal stress consisted of a rapid and significant fall of both ATP and NAD+ pools. Concomitantly, there was a moderate increase (about threefold) in both ADP-ribosyl transferase activity and free [Ca2+]i, while the specific activity of glyceraldehyde-3-phosphate dehydrogenase was partially decreased upon treatment. Oxidative injury also caused delayed effects consisting of a large depression of both protein and DNA synthesis. However, while the former was partially restored within 10 days of incubation, the latter remained severely impaired, as encountered in a growth-arrested population. Microfilaments of H2O2-treated cells appeared to be morphologically altered due to partial fragmentation of cytoskeleton actin which, however, was still maintained in the polymerized form as F-actin. Moreover, sublethally injured fibroblasts exhibited a reduced adhesiveness to plastic once they were detached and reseeded into new dishes. Relative adhesion efficiencies (number of adherent cells at 16 h as a percentage of seeded cells) were found to correlate inversely with times of exposure to H2O2. This finding allowed the identification of a biological parameter which showed itself to be very sensitive to oxidative stress and was also useful for developing an assay to grade sublethal injury to fibroblasts.
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PMID:Induction, effects, and quantification of sublethal oxidative stress by hydrogen peroxide on cultured human fibroblasts. 784 83


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