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)

A temperature-sensitive respiration-deficient mutant of yeast lacks hemoproteins and accumulates coproporphyrin III when cultivated at elevated temperatures. Cells grown at 20 C respired normally and contained cytochromes a, b, and c. Cells grown at 35 C showed respiration-deficient mutant characters; they did not respire, lacked cytochromes, and accumulated coproporphyrin III. Addition of protoporphyrin IX or protohemin IX to the culture medium restored the respiratory activity of this mutant during growth at 35 C. The activities of various enzymes, including succinate-2,6-dichlorophenol indophenol (DCPIP), reduced nicotinamide adenine dinucleotide (NADH(2))-DCPIP, succinate-cytochrome c, and NADH(2)-cytochrome c oxidoreductase, and cytochrome oxidase, and the cytochrome c content of cells cultured in various conditions were determined. Changes in the number and structure of mitochondria were associated with changes in respiratory activity.
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PMID:Phenotype of a temperature-sensitive, respiration-deficient (cyt) mutant of yeast. 433 81

Virulent Treponema pallidum has been shown to consume O(2) at a rate similar to that of the known aerobic spirochaete, Leptospira. Such O(2) uptake is cyanide sensitive, indicating a functioning cytochrome oxidase. Inhibition of O(2) uptake by azide, chlorpromazine, and amytal further suggests a functioning electron transport system for the oxidation of nicotinamide adenine dinucleotide (reduced) to O(2). Evidence is consistent with the probability that this terminal electron-transport system is coupled to oxidative phosphorylation. The potential significance of these findings is discussed.
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PMID:Oxygen uptake by Treponema pallidum. 436 18

Respiratory mutants of the facultative photosynthetic bacterium Rhodopseudomonas capsulata were used to investigate the mechanism of (reversible) inhibition of bacteriochlorophyll (BChl) synthesis by molecular oxygen. Although mutant strain M5 lacks cytochrome oxidase activity, it closely resembles the parental wild-type strain in respect to the effect of O(2) on BChl formation. This observation does not support an earlier hypothesis that O(2) regulates BChl synthesis through an effect on the redox state of a component of the respiratory electron transport system. Mutant strain M2 shows normal cytochrome oxidase activity, but lacks both reduced nicotinamide adenine dinucleotide and succinate dehydrogenase activities; relative to the parental strain, BChl synthesis in M2 is more sensitive to O(2) inhibition. The foregoing and results of related experiments can be accounted for by a revised interpretation of the O(2) effect, which proposes that O(2) directly inactivates a "factor" necessary for BChl formation and that, at relatively low O(2) tension, the inactivation can be reversed by a flow of electrons (derived from reduced nicotinamide adenine dinucleotide and succinate) diverted from a portion of the electron transport system delimited by the mutational blocks in M2 and M5.
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PMID:Regulation of bacteriochlorophyll synthesis by oxygen in respiratory mutants of Rhodopseudomonas capsulata. 471 66

Mitochondria, released from yeast spheroplasts and subjected to rate separation through sorbitol gradients in the zonal centrifuge, migrated in a wide symmetrical zone. Electron micrographs showed that the mitochondria had been resolved within the zone according to size. The mean mitochondrial diameter at the leading edge was approximately twice that at the trailing edge of the particle zone. Activities of the enzymes cytochrome oxidase, malate dehydrogenase, and reduced nicotinamide adenine dinucleotide- and d-lactate cytochrome c reductases were essentially uniform throughout the mitochondrial zone. Mitochondria from a vegetative-petite mutant had almost the same size distribution as the isogenic wild type, but with somewhat larger mean diameter and either absent or markedly reduced enzyme activities. Mixtures of wild-type and petite mitochondria produced sedimentation profiles showing overlap of particle populations with respect to mean sedimentation rates and mitochondrial diameters, as well as intermediate levels of enzyme activities. Both cristate and noncristate organelles were present throughout the mitochondrial zone from these mixtures. Mitochondria centrifuged in sorbitol density gradients were well-preserved and yielded consistent sedimentation profiles, whereas particles in sucrose density gradients migrated more slowly, produced varied sedimentation profiles, and often showed spurious peaks, presumably due to particle aggregations.
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PMID:Size-separation of yeast mitochondria in the zonal centrifuge. 535 8

Adenosine 5'-triphosphate (ATP), adenosine 5'-diphosphate (ADP), and inorganic pyrophosphate partially inhibit the oxidation of exogenous cytochrome c by cytochrome c oxidase of submitochondrial particles (with or without detergent treatment) or by a purified preparation when it is assayed polarographically in buffers of nonbinding ions at pH 7.8. ATP is somewhat more inhibitory than ADP. The inhibition is never greater than 50%, and it is always less than an equal concentration of Mg2+ ions is present or when the assays are run at pH 6. In contrast, the effect of ATP, ADP, and pyrophosphate on oxidase assays run spectrophotometrically is a similar slight stimulation of the oxidase of submitochondrial particles treated with deoxycholate and little or no effect on purified oxidase. The reaction of the oxidase of submitochondrial particles with the endogenous cytochrome c is stimulated by the nucleotides, as is the reduced nicotinamide adenine dinucleotide (NADH) oxidase activity. The observations can be explained by binding of ATP, ADP, or pyrophosphate to cytochrome c so that the formation of an especially reactive combination of cytochrome c and cytochrome oxidase previously postulated [Smith, L., Davies, H. C., & Nava, M. E. (1979) Biochemistry 18, 3140] is prevented. The data give no evidence that respiration via cytochrome c oxidase is regulated physiologically by direct effects of ATP or ADP on its activity.
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PMID:Effect of adenosine 5'-triphosphate and adenosine 5'-diphosphate on the oxidation of cytochrome c by cytochrome c oxidase. 624 28

Regional changes in myocardial function and oxidative metabolism during acute coronary artery occlusion were recorded spectrophotometrically by incorporating fiber optics in the isolated rat heart perfused by Langendorff's procedure. Oxygen saturation of myoglobin, reduction of cytochrome aa3, and the dynamic wall thickness of the left ventricle were continuously and concurrently measured from absorbancy increments at 581-592 nm, 605-630 nm, and 568-592 nm, respectively. In contrast to a gradual decrease in the extent of systolic wall thickening in anoxia, observed decreases in both the extent and the duration of systolic wall thickening and the appearance of a late systolic bulge occurred within 5 s after the onset of regional ischemia. After 10 s of both anoxia and regional ischemia, oxygen saturation of myoglobin decreased by 50%, but fluorescence of nicotinamide adenine dinucleotide remained at aerobic level which indicated that mitochondrial oxidative energy production might still be maintained. Thus early and pronounced dysfunction of the ischemic region appeared to precede a substantial loss of ATP production.
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PMID:Regional myocardial function and metabolism during acute coronary artery occlusion. 709 58

An 11-year-old girl with exercise intolerance, fatiguability from early childhood, had high blood lactate levels. Histochemistry showed increased activity of succinate dehydrogenase at the periphery of the muscle fibres, whereas aggregates of mitochondria were seen by electron microscopy. Biochemical investigation of isolated mitochondria and homogenate from muscle showed evidence of a severe complex I deficiency. In contrast, succinate dehydrogenase, complex II+III and complex IV were increased in activity. Therapy with biotin, riboflavin, nicotinamide, carnitine and amino acids resulted in an improvement of her endurance. 31P NMR spectroscopy of her forearm muscle showed a decreased ratio of phosphocreatine (PCr) over ATP. After exercise the PCr recovery rate was 26% of the average rate in 20 healthy untrained controls. When the therapy was suspended the PCr/ATP ratio at rest decreased from 2.60 to 2.34, and the PCr recovery rate after exercise decreased to 21% of the average control rate. The therapy was reinstituted but only riboflavin and carnitine were given. The PCr/ATP ratio increased to 2.60 and the PCr recovery rate increased to 32% of the control rate. Improvement of the energy metabolism in patients with defects in the oxidative phosphorylation may add to the quality of life; 31P NMR spectroscopy can measure these improvements.
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PMID:Vitamin-responsive complex I deficiency in a myopathic patient with increased activity of the terminal respiratory chain and lactic acidosis. 796 74

The pathophysiological significance of the mitochondrial microangiopathy in MELAS (mitochondrial encephalopathy, lactic acidosis, and strokelike episodes) syndrome was evaluated in an autopsy study of a nearly 13-year-old girl who had suffered from multiple infarctlike lesions in the brain, a mitochondrial myopathy-cardiomyopathy, and a generalized mitochondrial microangiopathy. Cytochemically, defects of cytochrome c oxidase (complex IV) were visualized by light and electron microscopy in the skeletal and heart muscle and in the altered vessels, as well as in single bile duct cells, with the activity of the hepatocytes being diffusely reduced, whereas in the brain, the cytochemical activity was only slightly diminished. Biochemical studies revealed a 50% reduction of both NADH (the reduced from of nicotinamide-adenine dinucleotide) dehydrogenase (complex I) and complex IV in the skeletal muscle. In the brain, complex I was diminished to 20%, whereas complex IV was only slightly below the low-normal range. Immunohistochemical studies with the use of subunit-specific antiserum samples against cytochrome c oxidase showed a varying protein profile, with loss of both mitochondrially and nuclearly derived subunits being most pronounced in the heart muscle and lesser in the skeletal muscle. In the brain, liver, bile ducts, and especially the vessels, no loss of enzyme protein content was observed. The results illustrate heterogeneous tissue expression of respiratory chain defects in MELAS syndrome and indicate that vascular cytochrome c oxidase deficiency may be involved in the cerebral manifestation of the disease, whereas in other organs like the heart, a similar pathogenetic importance of the microangiopathy cannot be verified.
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PMID:Generalized mitochondrial microangiopathy and vascular cytochrome c oxidase deficiency. Occurrence in a case of MELAS syndrome with mitochondrial cardiomyopathy-myopathy and combined complex I/IV deficiency. 838 Dec 71

Strial marginal cells are known to take up and metabolize glucose as their main source of metabolic energy. The membrane transport mechanisms for glucose uptake into strial marginal cells, however, are largely unknown. Two types of glucose transporters in mammalian cells have been described, the facilitated glucose transporter GLUT and the sodium/glucose cotransporter SGLT. The goal of the present study was to determine which of these represent the main glucose uptake mechanism in strial marginal cells. Glucose uptake into strial marginal cells was assessed by monitoring the cellular concentration of the reduced form of nicotinamide adenine dinucleotide (NADH) fluorometrically. The relation between the autofluorescence from marginal cells and cellular metabolism was verified as follows. The autofluorescence (excitation: 340 nm, emission: 450-490 nm) decreased when oxidative phosphorylation in the mitochondria was uncoupled with carbonyl cyanide 3-chlorophenylhydrazone (CCCP) and increased when cytochrome oxidase was inhibited with cyanide. These effects indicate that the autofluorescence is dependent on the mitochondrial metabolic state, and more specifically on the level of NADH in mitochondria. Glucose removal from the bath solution elicited a 39% decrease in the autofluorescence intensity within 5 min. Similarly, cytochalasin B (10 microM) reduced the fluorescence intensity by 34% in 5 min. In contrast, neither phlorizin (0.1 mM) nor Na+ removal from the bath solution caused any appreciable change in the autofluorescence intensity. These results indicate that glucose depletion affects the metabolic state of the marginal cell within a few minutes, and that marginal cells take up glucose via GLUT, but not via SGLT. Since the excitation and emission wavelengths of several fluorescent dyes used in physiological studies (e.g., Fura-2 and SBFI) are similar to those of NADH, possible effects of autofluorescence on recording signals should always be taken into account when these dyes are utilized.
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PMID:Marginal cells of the stria vascularis of gerbils take up glucose via the facilitated transporter GLUT: application of autofluorescence. 944 20

Our previous studies in iron-loaded rat heart cells showed that in vitro iron loading results in peroxidative injury, manifested in a marked decrease in rate and amplitude of heart cell contractility and rhythmicity, which is correctable by treatment with deferoxamine (DF). In the present studies we explored the role of mitochondrial damage in myocardial iron toxicity. Iron loading by 24-hour incubation with 0.36 mmol/L ferric ammonium citrate resulted in a decrease in the activity of nicotinamide adenine dinucleotide (NADH)-cytochrome c oxidoreductase (complex I+III) to 35.3%+/-11.2% of the value in untreated controls; of succinate-cytochrome c oxidoreductase (complex II+III) to 57.4%+/-3.1%; and of succinate dehydrogenase to 63.5%+/-12.6% (p < 0.001 in all cases). The decrease in activity of other mitochondrial enzymes, including NADH-ferricyanide reductase, succinate ubiquinone oxidoreductase (complex II), cytochrome c oxidase (complex IV), and ubiquinol cytochrome c oxidoreductase (complex III), was less impressive and ranged from 71.5%+/-15.8% to 91.5%+/-14.6% of controls. That the observed loss of respiratory enzyme activity was a specific effect of iron toxicity was clearly demonstrated by the complete restoration of enzyme activities by in vitro iron chelation therapy. Sequential treatment with iron and doxorubicin caused a loss of complex I+III and complex II+III activity that was greater than that seen with either agent alone but was only partially correctable by DF treatment. Alterations in cellular adenosine triphosphate measurements paralleled very closely the changes observed in respiratory complex activity. These findings demonstrate for the first time the impairment of cardiac mitochondrial respiratory enzyme activity caused by iron loading at conditions formerly shown to produce severe abnormalities in contractility and rhythmicity.
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PMID:Mitochondrial respiratory enzymes are a major target of iron toxicity in rat heart cells. 960 12


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