Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
 8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The characteristics of the energy metabolism were evaluated in the gastrocnemius muscle from 3- and 24-month-old rats in normoxia or subjected to either mild or severe chronic (4 weeks) intermittent normobaric hypoxia. Furthermore, 4-week treatment with saline or the TRH-analogue posatireline was performed. The muscular concentration of the following metabolites related to the energy metabolism was evaluated: glycogen, glucose, glucose 6-phosphate, pyruvate, lactate, lactate-to-pyruvate ratio; citrate, alpha-ketoglutarate, succinate, malate; aspartate, glutamate, alanine; ammonia; ATP, ADP, AMP, creatine phosphate; energy charge potential. Furthermore the maximum rate of the following muscular enzymes was evaluated: hexokinase, phosphofructokinase, pyruvate kinase, lactate dehydrogenase; citrate synthase, malate dehydrogenase; total NADH cytochrome c reductase; cytochrome oxidase. The age-related decrease in muscular glucose 6-phosphate, pyruvate and alanine concentrations and increase in citrate concentration were consistent with the age-related decreased hexokinase and increased citrate synthase activities. Ageing was characterized by a decrease in muscular creatine phosphate concentration, while the energy mediators and the energy charge potential were unchanged. The chronic (4 weeks) intermittent normobaric mild and severe hypoxia-induced alterations of the components in the anaerobic glycolytic pathway, tricarboxylic acid cycle and energy storage, that were magnified in the skeletal muscle from the oldest animals. The effect of the chronic treatment with the TRH-analogue posatireline suggests that the action of central nervous system-acting drugs could also be related to their direct influence on the muscular biochemical mechanisms related to the energy transduction.
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PMID:Age-related alterations of skeletal muscle metabolism by intermittent hypoxia and TRH-analogue treatment. 781 45

The toxicity of hydrophilic (cholate) and lipophilic (deoxycholate, chenodeoxycholate, and lithocholate) bile acids on the function of the electron transport chain was investigated in intact and disrupted rat liver mitochondria. In intact mitochondria, lipophilic bile acids used at a concentration of 100 mumol/L (0.1 mumol/mg protein) inhibited state 3 and state 3u (dinitrophenol-uncoupled) oxidation rates for L-glutamate, succinate, duroquinol or ascorbate/N,N,N',N'-tetramethyl-p-phenylenediamine as substrates. In contrast, state 4 oxidation rates and ADP/oxygen ratios were not significantly affected. At a bile acid concentration of 10 mumol/L (0.01 mumol/mg protein), the state 3 oxidation rate for L-glutamate was decreased in the presence of deoxycholate, chenodeoxycholate or lithocholate, whereas only lithocholate inhibited state 3 oxidation for succinate or duroquinol. In broken mitochondria, inhibition of oxidative metabolism was found for NADH or duroquinol as substrate in the presence of 100 mumol/L lithocholate (0.2 mumol/mg protein) and for duroquinol in the presence of 100 mumol/L chenodeoxycholate. Direct assessment of the activities of the enzyme complexes of the electron transport chain revealed decreased activities of complex I and complex III in the presence of 100 mumol/L deoxycholate or chenodeoxycholate or 10 mumol/L lithocholate. Inhibition of complex IV required higher bile acid concentrations (300 mumol/L for chenodeoxycholate or 30 mumol/L for lithocholate), and complex II was not affected. Both chenodeoxycholate and lithocholate were incorporated into mitochondrial membranes. The phospholipid content of mitochondrial membranes decreased in incubations containing 100 mumol/L (0.1 mumol/mg protein) chenodeoxycholate but was not affected in the presence of 100 mumol/L lithocholate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Toxicity of bile acids on the electron transport chain of isolated rat liver mitochondria. 790 81

Glutamate (Glu) immunocytochemistry has been widely used to identify presumed gluergic neurons and synapses, but several problems related to the fact that Glu is both a synaptic transmitter and a compound used for metabolic purposes are still unsolved. One of these concerns the intense perikaryal staining observed in perfusion-fixed tissue. Phosphate-activated glutaminase, a key enzyme for the synthesis of releasable glutamate, is inhibited by the diazoketone 6-diazo-5-oxo-L-norleucine (DON), which greatly reduces glutamate release. In the present experiments, DON was either injected intraparenchymally or applied epipially to the sensorimotor cortex of adult Sprague-Dawley rats at concentrations of 0.25-1 mM. Both intraparenchymal and epipial applications of the chemical abolished Glu immunoreactivity in neuron perikarya. Adjacent sections processed for cytochrome oxidase histochemistry, for aspartate immunoreactivity, or stained with thionine showed no changes. The effects of DON application are reversible, as shown in a second series of experiments in which, after 30 min of DON application, animals were allowed to survive for 5-10 days. In these cases, Glu immunoreactivity in cortical neurons was identical to that observed in normal untreated animals. The results reported here suggest that Glu immunoreactivity demonstrated by the present procedure in neuron perikarya is mainly due to Glu produced via phosphate-activated glutaminase.
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PMID:Glutamate immunoreactivity in rat cerebral cortex is reversibly abolished by 6-diazo-5-oxo-L-norleucine (DON), an inhibitor of phosphate-activated glutaminase. 791 Jun 17

After nigrostriatal dopaminergic denervation, the output nuclei of the basal ganglia, the medial globus pallidus and substantia nigra pars reticulata (Snr), become overactive, in part, because of increased activity of excitatory afferents from the subthalamic nucleus (STN). Because STN uses glutamate as a transmitter, we examined whether there are regulatory changes in glutamate receptor binding in the basal ganglia. Rats received unilateral 6-hydroxydopamine lesions of the medial forebrain bundle and substantia nigra pars compacta that were confirmed by apomorphine-induced rotation and 3H-GBR-12935 binding. As an indirect index of relative synaptic activity, succinate dehydrogenase and cytochrome oxidase activities were assayed histochemically in sections adjacent to those used for receptor binding. There were increases in enzymatic activity in entopeduncular nucleus (EP; the rodent homolog of medial globus pallidus), SNr, and globus pallidus (GP, the rodent homolog of lateral globus pallidus) in the lesioned hemisphere, suggesting increased synaptic activity, perhaps due to increased firing of the STN. Ipsilateral to the lesion, and postsynaptic to the STN, there were profound decreases in the binding of 3H-AMPA (alpha-amino-3-hydroxy-5-methylisoxazole propionic acid) in EP and SNr (45% and 30%, respectively); there were no alterations in the striatum, globus pallidus, or STN, and binding throughout the unlesioned hemisphere was equivalent to that in unlesioned control animals. In contrast, 3H-MK-801 binding to the NMDA receptor ion channel was not reduced in SNr, and was too low to be measured reliably in EP and STN. 3H-MK-801 binding was reduced by 6% in striatum and 39% in globus pallidus.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Polysynaptic regulation of glutamate receptors and mitochondrial enzyme activities in the basal ganglia of rats with unilateral dopamine depletion. 796 8

Residues at positions 13 (lysine or arginine) and 90 (glutamate or aspartate) of eukaryotic cytochromes c have been conserved during evolution; Cys102, however, is found only in yeast cytochrome c. The positively charged residue at position 13 and the negatively charged residue at position 90 are close together in those cytochromes c for which three-dimensional structures are available. We have replaced the amino acids at these two positions by cysteine in Saccharomyces cerevisiae iso-1-cytochrome c; in an earlier study, Cys102 was replaced by threonine without negatively influencing the physical or enzymic properties of the protein. The mutated proteins [R13C, C102T]cytochrome c (iso-1-cytochrome c containing Arg13-->Cys and Cys102-->Thr mutations), [D90C, C102T]cytochrome c (iso-1-cytochrome c containing Asp90-->Cys and Cys102-->Thr mutations) and [R13C, D90C, C102T]cytochrome c (iso-1-cytochrome c containing Arg13-->Cys, Asp90-->Cys, and Cys102-->Thr mutations) are functional in vivo. Free sulfhydryl titration shows that the doubly mutated forms each contain one sulfhydryl group while the triple mutant contains two sulfhydryl groups. The stability of mutant [R13C, C102T]cytochrome c resembles that of [C102T] cytochrome c, whereas the stability of [D90C, C102T]cytochrome c resembles the stability of [R13C, D90C, C102T]cytochrome c. The activity of cytochrome-c oxidase using cytochrome c was monitored polarographically. Compared to the wild-type or [C102T]cytochrome c, which shows two kinetic phases with cytochrome-c oxidase, [D90C, C102T]cytochrome c has much the same profile; [R13C, C102T]cytochrome c and [R13C, D90C, C102T]cytochrome c exhibit one kinetic phase with decreased activity. Electron-transfer activity of the mutant cytochromes c is inhibited by Hg2+. The inhibition is highest for the triple mutant, less for [R13C, C102T]cytochrome c, even less for [D90C, C102T]cytochrome c and insignificant for the wild type. It would appear as though the stability of the triple mutant follows the changes that result from the Asp90-->Cys mutation while the activity changes follow those of the Arg13-->Cys mutation.
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PMID:Mutations of iso-1-cytochrome c at positions 13 and 90. Separate effects on physical and functional properties. 803 88

The present study deals with the in vitro and in vivo effects of methyl isocyanate (MIC) on rat brain mitochondrial function. Addition of MIC to tightly coupled brain mitochondria in vitro resulted in a mild stimulation of state 4 respiration, abolition of respiratory control, decrease in ADP/O ratio, and inhibition of state 3 oxidation. The oxidation of NAD(+)-linked substrates (glutamate + malate) was more sensitive (fourfold) to the inhibitory action of MIC than succinate while cytochrome oxidase was unaffected. Administration of MIC subcutaneously at a lethal dose affected respiration only with glutamate+malate as the substrate (site I) and caused a 20% decrease in state 3 oxidation leading to a significant decrease in respiratory control index while state 4 respiration and ADP/O ratio remained unaffected. As both the malondialdehyde and iron contents of brain mitochondria were not altered, it may be inferred that the observed in vivo inhibition of state 3 oxidation is induced by MIC through systemic stagnant hypoxia leading to ischemia of brain, which further contributes to the cerebral hypoxia.
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PMID:In vitro and in vivo effects of methyl isocyanate on rat brain mitochondrial respiration. 806 Jan 73

The ADP:O values in both cardiac and hepatic mitochondria have significantly decreased with an increase in protein level after 7, 14 and 21 d of feeding (Toyomizu et al. 1992). The present studies were undertaken to clarify tissue-specific effects of dietary protein levels on oxidative phosphorylation in the liver, kidney, skeletal muscles and small intestine and to characterize oxidative metabolism with diverse substrates in the liver. Chicks were fed on semi-purified diets of different protein levels (7, 25, 43 and 61% of metabolizable energy content) for 21 d. The responses of protein levels to oxidative phosphorylation showed tissue-dependency; although liver mitochondria of chickens fed on higher-protein diets exhibited reduced ADP:O values and state 3, neither changes in ADP:O value nor state 3 and state 4 rates were observed in the isolated mitochondria from kidney and skeletal muscles. Small intestinal mucosal mitochondria from chickens fed on a high (61%)-protein-energy diet showed significantly reduced ADP:O value and respiratory control ratio when compared with medium-protein-energy diets (25 and 43%). In liver mitochondria showing the most sensitive dependency to the levels of dietary protein, the ADP:O value decreased with increasing protein levels when pyruvate+malate- or glutamate-requiring complexes I, III and IV of the electron transport chain were used as substrates, but it did not change when succinate-requiring complexes II, III and IV or ascorbate+tetramethyl-p-phenylenediamine requiring complex IV was used. These results imply that impaired oxidative phosphorylation capacities with increasing dietary protein levels may be associated with functional damage to the respiratory chain for electron flow from NAD-linked substrates to the ubiquinone pool.
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PMID:Tissue- and substrate-dependent responses of oxidative phosphorylation to dietary protein level in chicks. 826 Apr 73

The existence of an organo-specific (heart) external NADH dehydrogenase located on the outer face of the inner mitochondrial membrane has been recently proposed. We have studied the respiration on external NADH in rat and beef heart mitochondrial fractions: (i) by using different mitochondrial isolation procedures on the rat, we observed that the higher the criteria of quality toward classical substrate respiration of mitochondrial fractions, the lower the external NADH-linked respiration; (ii) by using an especially loosely fitting glass-Teflon homogenizer, we obtained rat heart mitochondrial fractions practically free from external NADH linked respiration and with the highest respiratory control ratio on glutamate plus malate respiration. In rat and beef heart mitochondrial fractions containing an external NADH respiration: (i) ethoxyformic anhydride used previously to distinguish internal and external NADH oxidation was shown not to be specific; (ii) external NADH-linked respiration (although associated to the normally functioning respiratory chain as was shown by the effects of classic respiratory inhibitors) did not lead to ADP phosphorylation while glutamate plus malate did; (iii) respiratory activity on glutamate plus malate and external NADH was totally additive and the oxidation corresponded to two separate cytochrome oxidase pools, indicating a total functional separation between the two respiratory systems; (iv) NAD+ addition stimulated states 3 and 4 glutamate plus malate respiration to the same extent, indicating the presence of an appreciable number of internal dehydrogenases accessible to external cofactors. These results show that external NADH-linked dehydrogenase activity, which is usually detectable in mammal heart mitochondrial fractions, is of artefactual origin.
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PMID:The organo-specific external NADH dehydrogenase of mammal heart mitochondria has an artefactual origin. 839 14

Various authors have suggested that nitric oxide (.NO) exerts cytotoxic effects through the inhibition of cellular respiration. Indeed, in intact cells .NO inhibits glutamate-malate (complex I) as well as succinate (complex II)-supported mitochondrial electron transport, without affecting TMPD/ascorbate (complex IV)-dependent respiration. However, experiments in our lab using isolated rat heart mitochondria indicated that authentic .NO inhibited electron transport mostly by reversible binding to the terminal oxidase, cytochrome a3, having a less significant effect on complex II- and no effect on complex I-electron transport components. The inhibitory action of .NO was more profound at lower oxygen tensions and resulted in differential spectra similar to that observed in dithionite-treated mitochondria. On the other hand, continuous fluxes of .NO plus superoxide (O.(2)(-)), which lead to formation of micromolar steady-state levels of peroxynitrite anion (ONOO-), caused a strong inhibition of complex I- and complex II-dependent mitochondrial oxygen consumption and significantly inhibited the activities of succinate dehydrogenase and ATPase, without affecting complex IV-dependent respiration and cytochrome c oxidase activity. In conclusion, even though nitric oxide can directly cause a transient inhibition of electron transport, the inhibition pattern of mitochondrial respiration observed in the presence of peroxynitrite is the one that closely resembles that found secondary to .NO interactions with intact cells and strongly points to peroxynitrite as the ultimate reactive intermediate accounting for nitric oxide-dependent inactivation of electron transport components and ATPase in living cells and tissues.
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PMID:Differential inhibitory action of nitric oxide and peroxynitrite on mitochondrial electron transport. 864 9

Leishmania major promastigotes were treated with digitonin and the rates at which [1-14C]acetate, [1,4-14C]succinate, [1-14C]glutamate, and [U-14C]alanine are oxidized were measured in the presence of suitable cofactors. Acetate was oxidized at the lowest rate of the four substrates examined, even in the presence of added NAD, CoA, ADP and acetyl-CoA synthase. Its rate of oxidation was negligible if the permeabilized cells were washed before the cofactors were added, indicating the requirement for an as yet unknown factor. Succinate was oxidized at a rate much higher than the very slow rate at which it is oxidized by intact cells. Its rate of oxidation was strongly inhibited by antimycin A, but that of glutamate was scarcely affected. Fumarate inhibited the rate of oxidation of acetate, glutamate, and succinate, but increased that of alanine. Ca++ inhibited the rates of oxidation of alanine and succinate, but not of acetate or glutamate. Increasing the osmolality by addition of mannitol partially inhibited the rate of oxidation of alanine but had little effect on that of glutamate. These results show that appreciable transaminase activity remains in the permeabilized cells and support earlier data indicating the presence of a branched NAD-to-cytochrome oxidase system. These results also provide preliminary information on the sensitivity of the two branches to Ca++, hyperosmolality, and Krebs cycle intermediates.
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PMID:Oxidation of alanine, acetate, glutamate, and succinate by digitonin-permeabilized Leishmania major promastigotes. 872 Sep 44


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