UMLS:C0011570 - FACTA Search

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

The metabolic effects of 60-min exposure to 250-2000 mg gamma-hydroxybutyrate (GHB) per kilogram or 150-1200 mg gamma-butyrolactone (GBL) per kilogram were studied in rats by measurement of the cerebral hemisphere contents of energy phosphates and glycolytic-Krebs' cycle metabolites. A general pattern of increased glycogen and glucose with decreased pyruvate, lactate, alpha-ketoglutarate, and malate was observed. This pattern in association with unchanged adenylates and decreased energy phosphate utilization was consistent with a metabolic adaptation to a state of cerebral depression. The major qualitative difference between the two drugs was that higher doses of GBL were associated with additional decreases of citrate and glutamate. Since these doses of GBL were also associated with acute increases of arterial CO2 tension, it is proposed that these differences were secondary to hypercapnia and not due to a distinctive primary action of GBL. Derivation of the cytoplasmic NAD(P)H:NAD(P)+ ratios indicated that GHB and GBL were not associated with consistent alterations of the cytoplasmic redox state.
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PMID:A comparison of the effects of gamma-hydroxybutyrate and gamma-butyrolactone on cerebral carbohydrate metabolism. 4 Jun 77

Major inhalational anesthetics cause inhibition in the electron transport chain in the region of Complex I resulting in decreased oxygen utilization, inhibition of metabolism of NAD-linked substrates, but not of succinate, inhibition of mitochondrial calcium uptake, and depression of synaptic transmission because of postulated changes in ACh sensitivity or GABA inhibition. Many cellular metabolic effects in CNS and other tissues are secondary to the above. Many metabolic changes noted with anesthetics occur subsequent to activation of the sympathetic nervous system either directly by the anesthetic or by surgical stimulation in the presence of light anesthesia. Many important studies remain to be done.
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PMID:Effects of anesthesia on intermediary metabolism. 16 50

The brain area of female rats three months of age was exposed to 2 krd of X-rays, and various biochemical parameters were retermined as well as NAD(H) in vivo fluorescence of the brain surface after time intervals from one day to 18 months. During the early period, an increase in the uptake of alpha-aminobutyrate (AIB) and a temporary depression in beta-glucuronidase and cathepsin activity followed by an activation at one month was seen. Somewhat later, acid phosphatase increases. During the intermediate period, DNA and serotonin content and AIB uptake by brain increase, whereas AIB uptake by heart and muscle decreases. A fall in sialic acid content is also noted at this time. During the late phase collagen increases, AIB uptake by brain and liver decreases. No changes were found with respect to NAD(H) fluorescence and its response to breathing of low oxygen concentrations.
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PMID:Late effects in the central nervous system. A study of biochemical alterations after local exposure of the rat brain to 2 krd. 18 Jun 35

The effects of the N-methyl-D-aspartate (NMDA) receptor antagonist MK-801 and the dihydropyridine calcium antagonist nimodipine on NMDA-induced phenomena were investigated using an in vivo fluorometric technique with indo-1. Indo-1, a fluorescent cytosolic free calcium ([Ca2+]i) indicator, was loaded into the cat cortex approximately 500 microns in depth by superfusion with the membrane-permeant indo-1 acetoxy-methyl ester (indo-1-AM). Changes in [Ca2+]i signals (400 and 506 nm) and reduced nicotinamide adenine dinucleotide (NADH) fluorescence (464 nm) were simultaneously measured directly from the cortex during ultraviolet excitation (340 nm). Superfusion of 100 microM NMDA over the exposed cortex induced an elevation of the [Ca2+]i signal ratio (400/506 nm), biphasic changes in NAD/NADH redox state (initial oxidation followed by progressive reduction), and characteristic changes in the EEG (abrupt depression in amplitude followed by an excitatory pattern of 18-22 Hz polyspikes or sharp waves). These changes were completely blocked by treatment with MK-801 and reduced by nimodipine. The mechanism underlying the protective effects of systemically administered MK-801 on the NMDA-induced neuronal injury was verified in vivo.
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PMID:Mechanism underlying protective effect of MK-801 against NMDA-induced neuronal injury in vivo. 171 15

On the material of early autopsies of the above patients the activity of the following myocardial enzymes was undergone the quantitative histochemical study: succinate, lactate, (beta-oxybutyrate, d-glycerophosphate, glucose 6-phosphate and alcohol dehydrogenase, NAD-diaphorase, catalase, phosphorylase. The increase of the activity of practically all enzymes studied was observed in the myocardial areas with no circulation disturbances. This increase was due to the moderate myocardial hypertrophy. On the contrary, in the areas with a non-even blood supply (ischemia) the decrease of the activity of all oxidative-reductive enzymes was observed. The presence of such foci in the myocardium which occur in 70% cases studied facilitates the development of the ventricular fibrillation with a fatal outcome. The enzyme depression is particularly pronounced against the background of a high alcoholic content.
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PMID:[A histochemical study of enzyme activity in the myocardium of victims of sudden death with small-focal cardiosclerosis]. 259 77

Initial Polytron treatment with subsequent exposure to the bacterial proteinase Nagarse has been shown to result in the isolation of two distinct populations of cardiac mitochondria, subsarcolemmal and interfibrillar mitochondria, respectively. Although these populations have been shown to possess distinct biochemical properties, few studies have been reported which document the potential differences in their response to pathological insult. We therefore examined the effect of acute hypoxia with or without reoxygenation as well as treatment with phosphate on oxidative phosphorylation on both groups of mitochondria. Freshly-isolated interfibrillar mitochondria (IFM) exhibited significantly higher respiratory values, with the exception of the ADP:O ratios, than subsarcolemmal mitochondria (SLM). With pyruvate-malate as respiratory substrate, 40 minutes hypoxia alone produced no effect on SLM whereas a stimulation in respiration was seen in IFM. A 40-minute reoxygenation period depressed the oxidative phosphorylation rate in SLM whereas it was stimulated in IFM. These treatments did not produce any effect in either population when succinate was the substrate of choice. Because of the latter observation, the possibility that increased lability of complex I of the electron transport chain accounted for the differences associated with NAD-linked substrates was studied by assessing NADH oxidation of sonicated mitochondria following the treatments. SLM exhibited enhanced permeability to exogenous NADH as well as increased sensitivity to sonication following either hypoxia or hypoxia/reoxygenation compared to IFM. Compared to hypoxia/reoxygenation, increasing concentrations of phosphate (5-15 mM) produced a marked depression in oxidative phosphorylation of SLM whereas IFM were relatively resistant. The toxic effects of phosphate were much more evident with pyruvate-malate as substrates; with succinate, oxidative phosphorylation of IFM was not depressed by phosphate whereas only a slight depression was observed with SLM. The latter population similarly exhibited reduced NADH oxidation following phosphate treatment whereas IFM were unaffected. Our studies show a differential sensitivity of two mitochondrial populations to hypoxia/reoxygenation, and, more markedly to phosphate. Since these effects were much less pronounced with succinate-linked respiration and since they were associated with defective NADH oxidation in SLM, it is suggested that the differences between the two populations may be accounted for by the increased lability of complex I of SLM due to hypoxia/reoxygenation or phosphate.
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PMID:Acute effects of hypoxia and phosphate on two populations of heart mitochondria. 260 32

The effect of the ganglioside GM1 was studied in a focal cerebral ischemia model in 30 cats consisting of 2 hours of middle cerebral artery occlusion followed by 4 hours of recirculation. The cerebrocortical electrical activity, extracellular potassium activity, and microcirculation indicated by NAD/NADH fluorescence were measured during occlusion as well as during recirculation in the core of the middle cerebral artery territory, while the cerebral metabolic rate for glucose (ICMRgl) was measured at the end of recirculation. The cats were classified into either mildly or moderately severe stroke groups based on the depression of the cerebrocortical electrical activity on the occluded side. Of 12 cats with only a mild stroke, six were administered GM1 intravenously 30 minutes after occlusion, while six cats were not treated. Of 12 cats with a moderate stroke, six were treated and six were left untreated. In six additional cats, only a sham insult was undertaken. In the cats with mild stroke, GM1 treatment significantly increased lCMRgl in the peripheral middle cerebral artery territory compared with the untreated cats; for the six treated cats, lCMRgl was normalized toward the control level, whereas it was depressed in the six untreated cats. There were no other significant effects of GM1 treatment on the other measured parameters. A potential protective effect of anesthesia is discussed.
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PMID:Effect of GM1 ganglioside after focal cerebral ischemia in halothane-anesthetized cats. 272 48

Subcellular fractionation of bovine thyroid tissue by differential pelleting and isopycnic gradient centrifugation in a zonal rotor indicated that NAD(+) glycohydrolase is predominantly located and rather uniformly distributed in the plasma membrane. Comparison of NAD(+) glycohydrolase activities of intact thyroid tissue slices, functional rat thyroid cells in culture (FRT(l)) and their respective homogenates indicated that most if not all of the enzyme (catalytic site) is accessible to extracellular NAD(+). The reaction product nicotinamide was predominantly recovered from the extracellular medium. The diazonium salt of sulphanilic acid, not penetrating into intact cells, was able to decrease the activity of intact thyroid tissue slices to the same extent as in the homogenate. Under the same conditions this reagent almost completely abolished NAD(+) glycohydrolase activity associated with intact thyroid cells in culture. The triazine dye Cibacron Blue F3GA and its high-M(r) derivative Blue Dextran respectively completely eliminated or caused a severe depression in the NAD(+) glycohydrolase activity of FRT(l) cells. The enzyme could be readily solubilized from bovine thyroid membranes by detergent extraction, and was further purified by gel filtration and affinity chromatography on Blue Sepharose CL-6B. The overall procedure resulted in a 1940-fold purification (specific activity 77.6mumol of nicotinamide released/h per mg). The purified enzyme displays a K(m) of 0.40mm for beta-NAD(+), a broad pH optimum around pH7.2 (0.1 m-potassium phosphate buffer) and an apparent M(r) of 120000. Nicotinamide is an inhibitor (K(i) 1.9mm) of the non-competitive type. The second reaction product ADP-ribose acts as a competitive inhibitor (K(i) 2.7mm). The purified enzyme splits beta-NAD(+), beta-NADP(+), beta-NADH and alpha-NAD(+) at rates in the relative proportions 1:0.75:<0.02:<0.02 and exhibits transglycosidase (pyridine-base exchange) activity. Anionic phospholipids such as phosphatidylinositol and phosphatidylserine inhibit the partially purified enzyme. A stimulating effect was observed upon the addition of histones.
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PMID:Topography, purification and characterization of thyroidal NAD+ glycohydrolase. 298 95

In reviewing our own and other work, it is clear that pertussis toxin treatment of neutrophils causes a time- and concentration-dependent inhibition of granule enzyme secretion induced by formylmethionylleucylphenylalanine (fMet-Leu-Phe), C5a, leukotriene (LT) B4 and platelet-activating factor (PAF). Chemotaxis, O2- generation, aggregation, and arachidonic acid production induced by fMet-Leu-Phe are also inhibited by pertussis toxin. Granule enzyme release caused by A23187 or phorbol 12-myristate 13-acetate is not inhibited. The inhibition of neutrophil function correlates closely with the NAD-ribosylation of a 41,000-dalton protein in the neutrophil plasma membrane, presumably the GTP-binding regulatory protein Ni. Pertussis toxin treatment prevents or obtunds the increased influx of Ca2+ induced by fMet-Leu-phe and LTB4, but not that caused by stimulation of neutrophils with PAF. Pertussis toxin prevents the receptor-induced breakdown of polyphosphoinositides in intact neutrophils and isolated membrane and prevents or decreases the production of inositol 1,4,5-trisphosphate (IP3) and 1,2-diacylglycerol. The hypothesis advanced by us and others is that pertussis toxin interacts with a GTP-binding regulatory protein identical or similar to Ni, which couples receptor-chemotactic factor interaction to phospholipase C activation. Inhibition of the activation prevents the production of IP3 and the resulting release of Ca2+ from intracellular stores and of 1,2-diacylglycerol and thus, the activation of protein kinase C. The lack of these two mediators is the immediate cause of the depression of neutrophil activation resulting from pertussis toxin. Some of the limitations and uncertainties of our present knowledge with respect to this hypothesis are discussed.
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PMID:Pertussis toxin as a probe of neutrophil activation. 301 23

The effect of asphyxia and subsequent resumption of respiration on the content of adenine nucleotides and some amino acids in heart tissue and mitochondria, as well as respiration of heart mitochondria was studied in rats. The depression of cardiac contractile function during asphyxia showed a better correlation with losses in mitochondrial adenine nucleotides (ATP + ADP + AMP) than those in cardiac tissue. The decrease in the heart work index was accompanied by a decrease in state 3 respiration with glutamate and malate as well as uncoupled respiration with these substrates. This did not occur with succinate. Nonphosphorylating (state 4) respiratory rates and ADP/O ratios were slightly affected by asphyxia, when respiratory substrates of both types were used. The decreased level of glutamic acid in the tissue and mitochondria of asphyxic hearts was simultaneously observed with a significant increase of alanine in cardiac tissue and of aspartic acid in the mitochondria. The losses of intramitochondrial ATP and respiratory activity with NAD-dependent substrates during asphyxia were associated with a reduction of glutamic acid level in mitochondria. The recovery of cardiac function during resumption of respiration was related to the restoration of mitochondrial respiration supported by glutamate and malate, as well as to the restoration of mitochondrial adenine nucleotides and glutamic acid. The results suggest that the depression of cardiac function caused by acute respiratory hypoxia may be attributed to impairment of electron transport, particularly in complex I of the respiratory chain and changes in metabolism of glutamic acid.
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PMID:The relationship between the cardiac contractile function, adenine nucleotides and amino acids of cardiac tissue and mitochondria at acute respiratory hypoxia. 361 64

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