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)

Changes in microcirculation, the NAD/NADH redox state, and electrical activity during 2 hours of ischemia and 4 hours of reperfusion produced by middle cerebral artery occlusion and release were studied in cats. Twelve animals were classified into three groups of ischemia (mild, moderate, and severe) based on the severity of electrocorticographic (ECoG) depression at the end of the recovery period. Four animals were studied as controls. Occlusion of the middle cerebral artery (MCAO) resulted in a marked but similar degree of reduction in cerebral blood flow (CBF) in all three groups. After this initial change, CBF increased continuously during occlusion in the mild group. CBF in the moderate and severe groups remained at the same low level during the entire period of MCAO. Immediately after MCAO, NAD reduction was increased by approximately 50% in all groups. At the end of MCAO, while the NAD/NADH redox state returned to its pre-ischemic reference level in the severe group, it remained markedly reduced in the mild and moderate groups. Removal of the clip led to slight reactive hyperemia in the mild and severe groups but not in the moderate group. Immediately after recirculation, NAD/NADH redox was shifted toward oxidation in all groups. However, this reoxidation of NADH was only partial in the mild and moderate groups, and a pronounced hyperoxidation occurred in the severe group. In spite of the similar behavior of CBF in the recovery period, a marked secondary NAD reduction occurred in the moderate group during the recirculation period. It is suggested that this represents cessation of mitochondrial electron transport in the dying cells, accompanied by stimulated anaerobic glycolysis in other cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetics of microcirculatory, NAD/NADH, and electrocorticographic changes in cat brain cortex during ischemia and recirculation. 372 9

Local cerebral glucose utilization (lCMRgl), NADH fluorescence, cerebral blood flow (CBF), electrocortical activity (ECoG) and histology were studied during a 4 hr recovery period following 2 hrs of left middle cerebral artery (MCA) occlusion in cats. Changes in relative reduced pyridine nucleotides and CBF were measured by fluororeflectometry, ECoG was obtained from the left middle ectosylvian gyrus (MEG), and lCMRgl was measured at the end of the recovery period autoradiographically with 14-C-2-deoxyglucose. A sham group was comprised of 4 cats. The ten animals subjected to the stroke were classified into 3 groups based on the mean amplitude of the ECoG at the end of the ischemic period. At the end of the recovery period, the relative reduced pyridine nucleotides showed a 22.5% oxidation (oxidation of NADH), a 66.2% reduction (reduction of NAD) and a 3.0% reduction compared to the sham group in the severe, moderate and mild groups, respectively. LCMRgl of the left MEG in the severe group was 64.2% of the corresponding sham value, whereas lCMRgl in the moderate and mild groups were 124.8% and 132.0% of the sham, respectively. CBF at the end of the recovery period ranged from 28.1% to 83.0% of the sham value, although there was no significant difference among these groups. Histologically, a large portion of the neurons in the left MEG in the severe group showed ischemic neuronal changes, while the damage was less severe in the moderate and mild groups. On the basis of these data, it is suggested that a relative substrate deficiency and/or a loss of mitochondrial enzymatic pool size may occur in the animals comprizing the severe group. Conversely, anaerobic glycolysis may be activated in the moderate group, while the mild group exhibits an increase in glucose metabolism that is most likely aerobic. A gradient in the magnitude of changes in lCMRgl was noted from the central MCA territory to the surrounding brain regions in the ischemic hemisphere. In addition, there was a mild, but statistically significant (p less than 0.05), depression in lCMRgl with no histological damage in the non-ischemic hemisphere of the severe group.
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PMID:Cerebral glucose metabolism during the recovery period after ischemia--its relationship to NADH-fluorescence, blood flow, EcoG and histology. 376 74

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

1. Two-day-old rats were exposed at constant temperature to atmospheres containing air and nitrogen with the air content varied in steps from 100 to 0%. By using this system of graded hypoxia a comparison was made between rates of gluconeogenesis from lactate, serine and aspartate in the whole animal and the concentrations of several liver metabolites. 2. Gluconeogenesis, expressed as the percentage incorporation of labelled isotope into glucose plus glycogen, proceeds linearly for 30min when the animals are incubated in a normal air atmosphere, but is completely suppressed if the atmosphere is 100% nitrogen. 3. Preincubation of animals for between 5 and 30min under an atmosphere containing 19% air results in the attainment of a new steady state with respect to gluconeogenesis and hepatic concentrations of ATP, ADP, AMP, lactate, pyruvate, beta-hydroxybutyrate and acetoacetate. 4. When lactate (100mumol), aspartate (20mumol) or serine (20mumol) was injected, it was shown that the more severe the hypoxia the greater the depression of gluconeogenesis. Under conditions when gluconeogenesis was markedly inhibited there were no changes in the degree of phosphorylation of hepatic adenine nucleotides, but free [NAD(+)]/[NADH] ratios fell in both cytosol and mitochondrial compartments of the liver cell. 5. Measurements of total liver NAD(+) and NADH showed that the concentrations of these nucleotide coenzymes changed less with anoxia, in comparison with the concentration ratio of free coenzymes. 6. Calculations showed that the difference in NAD(+)-NADH redox potentials between mitochondrial and cytosol compartments increased with the severity of hypoxia. 7. From the constancy of the concentrations of adenine nucleotides it is concluded that liver of hypoxic rats can conserve ATP by lowering the rate of ATP utilization for gluconeogenesis. Gluconeogenesis may be regulated in turn by the changes in mitochondrial and cytosol redox state.
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PMID:Regulation of gluconeogenesis during exposure of young rats to hypoxic conditions. 433 87

1. The effect of dinitrophenol on the metabolism of glucose labelled with (14)C and tritium by epididymal fat-pad segments from fed rats was studied. Dinitrophenol at concentrations of 0.1-0.3mm: (a) had little effect on glucose utilization; (b) depressed synthesis of fatty acids and greatly increased that of lactate; (c) increased the T/(14)C ratio in fatty acids synthesized from [U-(14)C,3-T]glucose and decreased that in fatty acids synthesized from [U-(14)C,4-T]glucose; (d) abolished randomization of (14)C from [6-(14)C]glucose in lactate. 2. Dinitrophenol stimulated oxidation of pyruvate and greatly inhibited the oxidation of lactate. It inhibited lipogenesis from pyruvate and lactate. 3. From the isotope data it was calculated that: (a) dinitrophenol stimulates oxidation via the tricarboxylic acid cycle three- to six-fold; (b) dinitrophenol depresses markedly the operation of the pentose cycle; (c) in the presence of dinitrophenol, NADPH formed in the pentose cycle provides all the hydrogen equivalents for fatty acid reduction, whereas, in its absence, NADPH provides 50-70% of the hydrogen equivalents; (d) in the presence of dinitrophenol, there is an excess of ATP produced in the cytoplasm, which flows into the mitochondria. A reverse flow operates in the absence of dinitrophenol. 4. A balance of formation and utilization of reduced nicotinamide nucleotides in the cytoplasm was established. With dinitrophenol there is some excess of NADH. There are indications that this excess may be transferred into mitochondria in the form of malate. 5. Our results are interpreted to indicate the absence from adipose tissue of the alpha-glycerophosphate shuttle for transferring reducing equivalents from the cytoplasm to mitochondria. 6. The effects of dinitrophenol are accounted for in terms of decreased ATP concentrations in the cells, leading to marked decrease in pyruvate carboxylation in the mitochondria and depression of fatty acid synthesis in the cytoplasm.
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PMID:The effect of 2,4-dinitrophenol on adipose-tissue metabolism. 438 39

The unanesthetized gerbil model was used to study the interrelation between metabolic, electrical and ionic activities in the brain. A combined K+DC surface electrode with a fiber optic light guide was implanted above the parietal cortex and cemented to the skull. The subjects were exposed to various pathological and physiological conditions such as anoxia, hypoxia, spreading cortical depression, and ischemia. During anoxia a leakage of cellular K+e was detected simultaneously with an increased level of NADH. The recovery phase in a few animals was followed by a spreading depression phenomenon. Exposing the brain to spreading depression led to a typical oxidation cycle of NADH, and the shape of this cycle was affected by hypoxia. Unilateral carotid artery ligation induced localized ischemia that affected cellular and K+e responses to spreading depression. Bilateral carotid artery occlusion increased NADH concentration to its maximum level; as a result, K+e also accumulated. Complete restoration of NADH and K+e to normoxic levels occurred after a few minutes, depending on the duration of the occlusion.
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PMID:The interrelation between brain oxidative metabolism and extracellular potassium in the unanesthetized gerbil. 610 68

The effects of 12-O-tetradecanoylphorbol-13-acetate (TPA), all trans-retinoic acid (RA), 5-azacytidine (5-AC), and phenobarbital (PB) on the activities of seven enzymes and/or isozymes of a diploid rat liver epithelial cell line have been studied. At 0.1 microgram/ml, TPA depressed the specific activities of lactate dehydrogenase and gamma-glutamyl transpeptidase, whereas 2 mM PB depressed gamma-glutamyl transpeptidase and alkaline phosphatase. At 0.01 microgram/ml, RA markedly depressed the activity of NADH-diaphorase and lactate dehydrogenase but enhanced the activity of alkaline phosphatase. Only 2 microM 5-AC caused the most significant shift of lactate dehydrogenase isozyme toward the "muscle"-type isozyme. Histochemical studies revealed that PB and 5-AC induced focal areas of cells with glycogen deposits, but no significant changes in either ultrastructure or alpha-fetoprotein and albumin immunohistochemical staining pattern were observed to suggest hepatocytic differentiation. Although none of the enzymatic changes could be consistently correlated with the effects of these biological modifiers on the cellular growth rate, the effect of RA on NADH-diaphorase, lactate dehydrogenase, and alkaline phosphatase activities was the opposite of the changes observed during carcinogenesis of these rat liver epithelial cells by multiple treatments with N-methyl-N'-nitro-N-nitrosoguanidine. The depression of gamma-glutamyl transpeptidase activity by PB is contradictory to that observed histochemically in hepatocytes in vivo, but such discrepancy may be related to the differences in cell type, growth conditions, or duration of exposure.
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PMID:Biochemical effects of 12-O-tetradecanoylphorbol-13-acetate, retinoic acid, phenobarbital, and 5-azacytidine on a normal rat liver epithelial cell line. 620 84

Cell lines resistant to ethidium bromide have been developed from cultured mammalian BHK21/C13 cells and these same cells transformed by Rous sarcoma virus (C13/B4). Cells resistant to 2 micrograms ethidium bromide per milliliter have been cloned. One clone of the control and one of the virus-transformed cell lines has been employed for characterization. The resistant cells, in the presence of 2 micrograms ethidium bromide/ml, grow at approximately the same rate as the untreated parental cells. The control cells possess a "normal" karyotype (44 chromosomes), while the corresponding ethidium bromide mutant has a reduced chromosome number of 41 and a number of translocations. The mitochondria displayed morphological alterations compared to the parental lines during the transition phase prior to the isolation of the ethidium bromide-resistant cells. The mitochondria of the ethidium bromide-resistant mutants appear somewhat enlarged with a normal morphology. The effect of ethidium bromide on selected respiratory enzymes in normal and virus-transformed ethidium bromide-resistant baby hamster kidney cells was determined. Ethidium bromide-resistant cells exhibited a depressed level of cytochrome aa3. This depression could not be reversed by growth in ethidium bromide-free media. Ethidium bromide-resistant cells possessed the same cytochrome b, c, and c1 levels per cell as their corresponding parental lines. Purified mitochondria isolated from virus-transformed ethidium bromide-resistant cells exhibited a depression in cytochrome oxidase-specific activity, while the ethidium bromide-resistant control cells did not. All cell lines studied showed a depression in NADH-ferricyanide and NADH-cytochrome c reductase-specific activities relative to their parental BHK21/C13 cells. No increase was observed in virus-transformed ethidium bromide-resistant cells. Ethidium bromide-resistant control cells exhibited a two-fold increase in oligomycin-insensitive adenosine triphosphatase activity relative to their parental cells. All of the cell lines studied possessed equivalent oligomycin-sensitive adenosine triphosphatase-specific activity except for the virus-transformed, dye-resistant mutant, whose activity was increased.
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PMID:Control and virus-transformed baby hamster kidney cells resistant to ethidium bromide. I. Characterization and the respiratory enzymes. 625 Oct 98

Addition of exogenous NADH to rotenone- and antimycin A-treated mitochondria, in 125 mM KCl, results in rates of oxygen uptake of 0.5-1 and 10-12 nanoatoms of oxygen X mg protein-1 X min-1 in the absence and presence of cytochrome c, respectively. During oxidation of exogenous NADH there is a fast and complete reduction of cytochrome b5 while endogenous or added exogenous cytochrome c become 10-15% and 100% reduced, respectively. The reoxidation of cytochrome b5, after exhaustion of NADH, precedes that of cytochrome c. NADH oxidation is blocked by mersalyl, an inhibitor of NADH-cytochrome b5 reductase. These observations support the view of an electron transfer from the outer to the inner membrane of intact mitochondria. Both the rate of exogenous NADH oxidation and the steady state level of cytochrome c reduction increase with the increase of ionic strength, while the rate of succinate oxidation undergoes a parallel depression. These observations suggest that the functions of cytochrome c as an electron carrier in the inner membrane and as an electron shuttle in the intermembrane space are alternative. It is concluded that aerobic oxidation of exogenous NADH involves the following pathway: NADH leads to NADH-cytochrome b5 reductase leads to cytochrome b5 leads to intermembrane cytochrome c leads to cytochrome oxidase leads to oxygen. It is suggested that the communication between the outer and inner membranes mediated by cytochrome c may affect the oxidation-reduction level of cytosolic NADH and the related oxidation-reduction reactions.
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PMID:Cytochrome c as an electron shuttle between the outer and inner mitochondrial membranes. 626 41


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