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)

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

Implantation of cobalt-agar rods into the visual cortex of 16 adult rats induced in some of the animals epileptiform bioelectrical activity and provoked in all of them histological and histochemical changes in the region of the implantation (primary focus) as well as in some ipsilateral projection sites of the visual cortex (secondary foci). The changes within the secondary foci are demonstrated in the Corpus geniculatum laterale, pars dorsale (dLGN), by means of 18 histochemical and 5 histological methods. Together with the appearance of hyperactive and degenerating neurones combined with neuronophagy and diminution of the number of synapses a marked gliosis developed, especially an increase of microglia. The destruction of the tissue induced a depression of energy and transmitter metabolism and intensified lytic processes. This is confirmed by the decreased activities of LDH, SDH, GPDH, G6PDH, NAD(P)H-TR, GABA-T and GDH and the increased activity of acid phosphatase in the neuropil of the secondary foci. Single hyperactive nerve and glial cells were accented by high activities of those enzymes which had a reduced activity in the neuropil. Since in our experiments agar-rods without cobalt never induced histological or histochemical changes in subcortical grisea of the visual system, the secondary foci seem to result from the direct influence of the cobalt, migrating in the corticothalamic projection pathway and identifiable in the dLGN by the TIMM technique.
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PMID:[Morphologic and histochemical changes in the secondary focus following cobalt-induced epileptogenic bioelectrical activity of the visual cortex in the adult rat]. 393 55

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

The diabetogenic activity of streptozotocin has been correlated with a reduction in pyridine nucleotide synthesis in the mouse pancreatic islet. To determine the specificity of this reduction for diabetogenicity, a comparative study of streptozotocin, its cytotoxic moiety, 1-methyl-1-nitrosourea, and alloxan was performed. Streptozotocin administered intraperitoneally (i.p.) producd a dose-related reduction in islet NAD which was proportional to the degree of diabetogenicity. A diabetogenic dose, 200 mg/kg, attained a peak plasma N-nitroso intact streptozotocin concentration of 0.224 mumol/ml and reduced the mean islet NAD from a control of 0.78 to 0.15 pmol. At borderline, 150 mg/kg, and nondiabetogenic, 100 mg/kg, doses, plasma concentrations reached 0.161 and 0.136 mumol/ml, and NAD was 0.36 and 0.86 pmol/islet, respectively. 1-Methyl-1-nitrosourea, 100 mg/kg, attained a maximum N-nitroso intact 1-methyl-1-nitrosourea concentration of 0.162 mumol/ml and reduced the mean NAD to 0.58 pmol/islet, and was nondiabetogenic; 200 mg/kg attained a peak plasma concentration of 0.344 mumol/ml and depressed NAD to 0.38 pmol/islet, and was inconsistently diabetogenic. Islet NAD of 0.4 pmol/islet or greater is required for integrity of the beta cell. A diabetogenic dose of alloxan, 500 mg/kg, did not depress NAD, 0.85 pmol/islet, therefore confirming that its mechanism of diabetogenicity differs from that of streptozotocin. In vivo uptake of [methyl-(14)C]streptozotocin by islets was 3.8 times that of [methyl-(14)C]-1-methyl-1-nitrosourea, whereas uptake by the exocrine pancreas favored 1-methyl-1-nitrosourea over streptozotocin 2.4:1. The decreased islet uptake of 1-methyl-1-nitrosourea correlates with the 3.5 times increased molar dosage required to produce islet NAD depression comparable to that of streptozotocin, 150 mg/kg. These studies indicate that the glucose carrier of streptozotocin facilitates uptake of its cytotoxic group, 1-methyl-1-nitrosourea, into islets.
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PMID:Streptozotocin diabetes. Correlation with extent of depression of pancreatic islet nicotinamide adenine dinucleotide. 436 17

Rats fed a synthetic diet containing 0.25% benzamide, 0.1% phenobarbital, separately or in combination, for two weeks showed a significant augmentation in the activity of nuclear poly(ADP-ribose) polymerase as well as changes in various nuclear, microsomal and cytosolic liver enzymes involved in the metabolism of xenobiotics. A selective depression of microsomal styrene oxide hydrolase activity by benzamide feeding, and a contrasting augmentation by phenobarbital, were confirmed by immunological titration of the enzyme-protein content suggesting actual enzyme repression and induction. The NAD content of these livers is not altered significantly as a result of benzamide and phenobarbital feeding, indicating that the changes in enzymes are not a result of non-specific toxic effects.
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PMID:The in vivo effect of benzamide and phenobarbital on liver enzymes: poly(ADP-ribose) polymerase, cytochrome P-450, styrene oxide hydrolase, cholesterol oxide hydrolase, glutathione S-transferase and UDP-glucuronyl transferase. 608 14

Using histochemical techniques, the reactivities of selected enzymes and other metabolic components were examined in the myocardium, coronary arteries, and coronary arterioles of normal, two-week-sympathectomized, and sham-operated canine hearts. There were no differences in the histochemistry of coronary arteries in any of the hearts, but important differences were noted in the myocardium and especially in the arterioles. The reactivities of the enzyme glucose-6-phosphate dehydrogenase and the nucleic acids were increased in arterioles of the sympathectomized heart, possibly indicating an increased protein synthesis. The reactivities of succinate dehydrogenase, NAD-isocitrate dehydrogenase, and cytochrome oxidase were reduced in myocardium and arterioles of sympathectomized hearts as well as in arterioles of sham-operated hearts; the changes were greater in the sympathectomized arterioles where there was also observed an increase in reactivity of lactate dehydrogenase. These findings suggest a depression in aerobic metabolic capacity and, in the case of the sympathectomized arteriole, imply a possible shift in adaptation from aerobic to anaerobic metabolism.
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PMID:The myocardium and its vasculature: a histochemical comparison of the normal and chronically sympathectomized dog heart. 615 74

Formation of excited species such as singlet molecular oxygen during redox cycling (one-electron reduction-oxidation) was detected by low-level chemiluminescence emitted from perfused rat liver and isolated hepatocytes supplemented with the quinone, menadione (vitamin K3). Chemiluminescence was augmented when the two-electron reduction of the quinone catalyzed by NAD(P)H:quinone reductase was inhibited by dicoumarol, thus underlining the protective function of this enzyme also known as DT-diaphorase. Interference with NADPH supply by inhibition of energy-linked transhydrogenase by rhein or of mitochondrial electron transfer by antimycin A led to a depression in the level of photoemission. Unexpectedly, glutathione depletion of the liver led to a lowering of chemiluminescence elicited by menadione, whereas conversely the depletion of glutathione led to increased chemiluminescence levels when a hydroperoxide was added instead of the quinone. As the GSH conjugate of menadione, 2-methyl-3-glutathionyl-1,4-naphthoquinone, studied with microsomes, was shown also to be capable of redox cycling, we conclude that menadione-induced chemiluminescence of the perfused rat liver does not only arise from menadione itself but from the menadione-GSH conjugate as well. Therefore, the conjugation of the quinone with glutathione is not in itself of protective nature and does not abolish semiquinone formation. A biologically useful aspect of conjugate formation resides in the facilitation of biliary elimination from the liver. Nonenzymatic formation of the conjugate from menadione and GSH in vitro was found to be accompanied by the formation of aggressive oxygen species.
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PMID:Hepatic low-level chemiluminescence during redox cycling of menadione and the menadione-glutathione conjugate: relation to glutathione and NAD(P)H:quinone reductase (DT-diaphorase) activity. 619 66

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

In order to elucidate that which are the factors that may influence the direction of brain activation-induced changes in the redox state of oxidized/reduced nicotinamide adenine dinucleotide (NAD/NADH), the brain cortex was electrically stimulated during arterial hypotension and following reinfusion of the shed blood, during arterial hyper- and hypoxia, and during the second phase of spreading cortical depression (SD). Cerebrocortical NADH fluorescence and vascular volume ( CVV ) of cats, anaesthetized by chloralose, were measured with a microscope fluororeflectometer . Under physiologically normal conditions electrical stimulation resulted in pronounced cortical NAD reduction and increase in CVV . These reactions were not altered by arterial hyperoxia and continuous superfusion of the brain cortex with oxygenated artificial cerebrospinal fluid (mock CSF). Arterial hypotension and SD (in phase II) increased NAD reduction and CVV markedly, and the superimposed electrical stimulation brought about NADH oxidation and greatly depressed CVV responses. Reinfusion of the shed blood did not restore NAD/NADH redox state and CVV to their reference levels, and electrical stimulation under this condition led to NADH oxidation and negligible vascular reactions. Since under physiologically normal conditions electrical activation of the brain cortex resulted in NAD reduction and marked increase in CVV and the magnitude of these reactions were not altered by arterial hyperoxia or by superfusion of the brain cortex with oxygenated CSF, it is very unlikely that the brain cortex became hypoxic during stimulation. Because when the steady NAD/NADH redox state of the brain cortex was shifted toward reduction by arterial hypotension and reinfusion and SD, electrical stimulation led to NADH oxidation, it is suggested that the prestimulatory steady redox state has great importance in determining the direction of NAD/NADH redox reactions evoked by activation of the brain cortex.
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PMID:Determinants of brain activation-induced cortical NAD/NADH responses in vivo. 632 66


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