EC:1.9.3.1 - FACTA Search

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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)

Functional characteristics of mitochondria isolated from liver, brain and heart were studied in ethanol-fed rats using ethanol administration in drinking water as a model of moderate alcohol intoxication. Our results show a slight decrease in liver cytochrome aa3 content, the mitochondrial alteration which is most consistently observed during chronic ethanol feeding. In liver and heart mitochondria, ethanol consumption led to an increase in state 3 respiration with NAD(+)-linked substrates, whereas no changes were apparent in respiration rates with succinate as substrate. However a decrease was found in state 3 respiration with succinate in brain mitochondria isolated from ethanol-fed rats. Submitochondrial particles (SMP) were used to study the superoxide radical (O2-.) production at the level of antimycin-inhibited regions of the respiratory chain. It appears that there is no clear correlation between ethanol effects on respiration and O2-. production. Whereas O2-. generation remained unchanged in heart mitochondria, an elevation of O2-. generation was observed in brain mitochondria, and in contrast, the rate of O2-. production was decreased in liver mitochondria of the ethanol-group in comparison to the control-group. Our findings support a tissue specificity for the toxic effects of ethanol towards the mitochondria and indicate that mitochondrial free radical mechanisms are involved in ethanol-induced toxicity in the brain.
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PMID:Mitochondrial respiratory activity and superoxide radical generation in the liver, brain and heart after chronic ethanol intake. 820 99

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

Cadmium is an extremely toxic environmental contaminant having a long half-life in humans. The greatest accumulation occurs in the liver and kidneys. Since mitochondria are the most sensitive targets, the effect of cadmium on the oxygen consumption and on the redox state of electron carriers of rat liver mitochondria has been evaluated. Cadmium markedly inhibits uncoupler-stimulated oxidation on various NADH-linked substrates as well as that of succinate. Experiments on specific segments of the respiratory chain showed that cadmium does not inhibit electron flow through cytochrome oxidase, whereas the inhibition of duroquinol oxidation clearly demonstrates an impairment of electron flow through site 2, the ubiquinone-b-cytochrome c1 complex. On the basis of the ability of N,N,N',N' tetramethyl-p-phenylendiamine and 2,6-dichlorophenolinindophenol bypasses to relieve the cadmium inhibition of succinate oxidation and on the spectroscopic behaviour of the cytochrome b, the inhibition was found to take place before cytochrome b and, more precisely, between ubisemiquinone and cytochrome bT. Furthermore, the finding that cadmium induces a more oxidized state of cytochrome b in state 1 demonstrates the existence of a second point in which it inhibits electron transfer. Spectroscopic evidence demonstrates that cadmium induces an oxidation of NAD(P)H in mitochondria in states 1 and 4 and prevents the reduction of mitochondrial NAD(P)+ by substrates, thus indicating that the site must be localized between NAD-linked substrates and respiratory chain.
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PMID:Sites of inhibition of mitochondrial electron transport by cadmium. 826 44

The conditions of treatment of human skeletal muscle fibers from M. vastus lateralis with saponin were optimized to achieve complete permeabilization of cell membrane at intact mitochondrial oxidative phosphorylation. After 30 min of incubation with saponin all lactate dehydrogenase, 50% of creatine kinase, 30% of adenylate kinase and less than 20% of citrate synthase was released into the permeabilization medium. These skinned fibers behave similar to isolated mitochondria from human skeletal muscle: (i) the respiration with mitochondrial substrates can be stimulated by ADP, (ii) inhibited by carboxyatractyloside and (iii) it is possible to detect fluorescence changes of mitochondrial NAD(P)H on additions of substrates, uncoupler and cyanide. From a comparison of rates of respiration per cytochrome aa3 content of isolated human skeletal muscle mitochondria and saponin-skinned muscle fibers it was possible to calculate that almost 85% of mitochondria in those fibers are accessible for the investigation of oxidative phosphorylation. As shown by the investigation of biopsy samples of two patients with undefined myopathies these fibers are a suitable object for the replacement of isolated mitochondria in the diagnosis of mitochondrial myopathies and encephalomyopathies.
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PMID:Functional characterization of mitochondrial oxidative phosphorylation in saponin-skinned human muscle fibers. 834 61

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

The respiratory deficient dum-1 mutant of Chlamydomonas reinhardtii fails to grow in the dark because of a terminal 1.5 kb deletion in the linear 15.8 kb mitochondrial genome, which affects the apocytochrome b (CYB) gene. In contrast to the wild type where only mitochondrial genomes of monomer length are observed, the dum-1 genomes are present as a mixture of monomer and dimer length molecules. The mutant dimers appear to result from head-to-head fusions of two deleted molecules. Furthermore, mitochondrial genomes of dum-1 were also found to be unstable, with the extent of the deletion varying among single cell clones from the original mutant population. The dum-1 mutant also segregates, at a frequency of ca. 4% per generation, lethal minute colonies in which the original deletion now extends at least into the adjacent gene encoding subunit four of NAD dehydrogenase (ND4). We have used the dum-1 mutant as a recipient to demonstrate stable mitochondrial transformation in C. reinhardtii employing the biolistic method. After 4 to 8 weeks dark incubation, a total of 22 respiratory competent colonies were isolated from plates of dum-1 cells bombarded with C. reinhardtii mitochondrial DNA (frequency 7.3 x 10(-7)) and a single colony was isolated from plates bombarded with C. smithii mitochondrial DNA (frequency 0.8 x 10(-7)). No colonies were seen on control plates (frequency < 0.96 x 10(-9)). All transformants grew normally in the dark on acetate media; 22 transformants were homoplasmic for the wild-type mitochondrial genome typical of the C. reinhardtii donor. The single transformant obtained from the C. smithii donor had a recombinant mitochondrial genome containing the donor CYB gene and the diagnostic HpaI and XbaI restriction sites in the gene encoding subunit I of cytochrome oxidase (COI) from the C. reinhardtii recipient. The characteristic deletion fragments of the dum-1 recipient were not detected in any of the transformants.
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PMID:Further characterization of the respiratory deficient dum-1 mutation of Chlamydomonas reinhardtii and its use as a recipient for mitochondrial transformation. 843 70

Effect of the polycation on oxidative phosphorylation in the rat liver mitochondria has been studied. Both oxygen uptake and coupled phosphorylation were progressively inhibited by increasing concentration of the polycation, as observed with NAD-linked substrates, succinate and ascorbate+TMPD which activates the terminal part of the respiratory chain. NADH oxidase, NADH dehydrogenase and cytochrome oxidase were strongly inhibited by the polycation, 80-90% of the activity being lost at an inhibitor concentration of 100 microM. Succinate oxidase and succinate dehydrogenase were inhibited 60-66% at 100 microM concentration of the polycation. The polycation inhibited the uncoupler 2,4-dinitrophenol stimulated ATPase activity both in presence and absence of Mg2+ ions. The polycation also inhibited salt-induced volume change.
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PMID:Inhibition of mitochondrial oxidative phosphorylation and its electron transport pathway by a polycation in vitro. 850 25

The surface of rat visceral yolk sacs (VYS) of intact, viable rat conceptuses were continuously monitored with a microfiberoptic sensor optimized for detection of the reduced pyridine nucleotides, NADH and NADPH. Model chemical toxins, cyanide and alloxan, were used and evaluated on the basis of their differential ability to modulate NAD(H)- and NADP(H)-dependent cellular pathways, respectively. Exposure with 2 mM sodium cyanide for 5 min caused a reversible fluorescence increase of 325 arbitrary fluorescence units (AFU) and 225 AFU on Gestational Days (GD) 10 and 11, respectively. Exposure with 40 mM alloxan for 5 min resulted in a fluorescence decrease of 170 and 120 AFU on GD 10 and 11, respectively. Glutathione (GSH) levels in the VYS, as determined by HPLC, showed a marked decrease from 27.3 +/- 2.1 to 2.9 +/- 0.4 pmol/mg protein, within the 5-min alloxan exposure period on GD 10. No decrease in GSH levels was noted for the same exposure duration on GD 11. A 2-hr pretreatment with 25 microM BCNU [(1,3 bis(2-chloroethyl)-1-nitrosourea], to inhibit glutathione disulfide reductase (GSSG-Rd), resulted in an elimination of the fluorescence decrease, but still led to a significant drop in GSH levels as seen on both days of gestation. These results are consistent with overall changes in intracellular pyridine nucleotide concentrations, where the relative amounts of NADPH increase significantly and disproportionately from GD 10 to 11. The net oxidation of NADPH, through GSSG-Rd activity, appears to be responsible for the alloxan-induced decrease in surface fluorescence. Conversely, the cyanide-induced fluorescence increases appear to be the result of NAD+ reduction, mediated through the inhibition of the terminal cytochrome oxidase in the electron transport chain.
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PMID:Real time microfiberoptic redox fluorometry: modulation of the pyridine nucleotide status of the organogenesis-stage rat visceral yolk sac with cyanide and alloxan. 854 33

Plant mitochondria contain two terminal oxidases: cytochrome oxidase and the cyanide-insensitive alternative oxidase. Electron partioning between the two pathways is regulated by the redox poise of the ubiquinone pool and the activation state of the alternative oxidase. The alternative oxidase appears to exist as a dimer which is active in the reduced, noncovalently linked form and inactive when in the oxidized, covalently linked form. Reduction of the oxidase in isolated tobacco mitochondria occurs upon oxidation of isocitrate or malate and may be mediated by matrix NAD(P)H. The activity of the reduced oxidase is governed by certain other organic acids, notably pyruvate, which appear to interact directly with the enzyme. Pyruvate alters the interaction between the alternative oxidase and ubiquinol so that the oxidase becomes active at much lower levels of ubiquinol and competes with the cytochrome pathway for electrons. These requirements for activation of the alternative oxidase constitute a sophisticated feed-forward control mechanism which determines the extent to which electrons are directed away from the energy-conserving cytochrome pathway to the non-energy conserving alternative oxidase. Such a mechanism fits well with the proposed role of the alternative oxidase as a protective enzyme which prevents over-reduction of the cytochrome chain and fermentation of accumulated pyruvate.
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PMID:Regulation of alternative oxidase activity in higher plants. 859 73

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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