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)

We have undertaken the analytical fractionation of epithelial cells from toad urinary bladder, a tissue extensively used to study epithelial transport of ions and water. In an attempt to establish markers for the main subcellular organelles, a number of enzymes were assayed in cell homogenates. The nearly ubiquitous plasma membrane marker 5'-nucleotidase, and the transferases that donate N-acetylglucosaminyl, galactosyl, and sialyl residues to glycoproteins and glycolipids in the Golgi complex were not detectable. Glucose-6-phosphatase activity was low in relation to that of nonspecific phosphatases and, therefore, not suitable for identifying the endoplasmic reticulum. Like the cytosolic enzyme lactate, dehydrogenase, catalase was essentially found in the high-speed supernatant, with a noteworthy part of aminopeptidase (substrate, leucyl-beta-naphthylamide) and NAD glycohydrolase. Other enzymes, including cytochrome c oxidase, acid phosphatase, acid N-acetyl-beta-glucosaminidase, alkaline phosphatase, alkaline phosphodiesterase I, nucleoside diphosphatase (substrate ADP), oligomycin-resistant Mg++-ATPase, and mannosyltransferase (acceptor, dolichylphosphate) were fairly active and largely sedimentable. After differential centrifugation, cytochrome oxidase, acid phosphatase, and acid N-acetyl-beta-glucosaminidase were typically associated with the large granule fraction, whereas the other sedimentable enzymes exhibited a broad distribution profile overlapping the nuclear, large granule, and microsome fractions. Their behavior in density equilibrium centrifugation is examined in a companion paper.
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PMID:Subcellular fractionation of epithelial cells from toad urinary bladder. 1. Assay of marker enzymes and differential centrifugation. 250 71

Rat kidney was studied histochemically and in electron microscope during administration of lithium carbonate for 14 days in doses of 4 mmol/l. Morphological examination demonstrated signs of damage exclusively to the epithelial cells in the proximal tubule. Histochemical examination demonstrated a major reduction of the reactions for succinate dehydrogenase and cytochrome oxidase. No difference was found in the intensity of the reaction for alkaline phosphatase and Ca-ATPase during lithium treatment as compared to controls. Additional observation demonstrated, only in histological examination, an increased number of cells of the macula densa.
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PMID:Ultrastructural and histochemical assessment of proximal renal tubule in rats during administration of lithium carbonate. 251 37

The effect of rhein on the oxygen consumption, oxidative phosphorylation, ATPase activity and redox state of electron carriers of rat liver mitochondria has been studied. Rhein inhibits ADP- and uncoupler-stimulated respiration on various NAD-linked substrates and succinate, but stimulates state 4 respiration of mitochondria respiring on succinate. Experiments on specific segments of the respiratory chain showed that rhein does not inhibit electron flow through cytochrome oxidase. Electron flow through site 2, the ubiquinone-cytochrome b-cytochrome c1 complex, was also unaffected by rhein, which failed to inhibit the oxidation of duroquinol. Rhein affects oxidative phosphorylation by inhibiting both electron transfer and ADP-driven H+ uptake. The inhibition of succinate oxidation by rhein was found to take place at a point between succinate and ubiquinone, perhaps at the level of succinic dehydrogenase. Spectroscopic evidence demonstrated that rhein induces a NAD(P)H oxidation in mitochondria respiring either on endogenous substrates or on glutamate + malate, and an inhibition of the cytochrome b reduction by succinate. These observations, together with other evidence, suggest that rhein inhibits electron transport in rat liver mitochondria at the dehydrogenase-coenzyme level, particularly when the electron carriers are in a relatively oxidized state and/or when the inner membrane-matrix compartment is in the condensed state.
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PMID:Sites of inhibition of mitochondrial electron transport by rhein. 252 79

The bovine heart mitochondrial F1-ATPase is inhibited by a number of amphiphilic cations. The order of effectiveness of non-peptidyl inhibitors examined as assessed by the concentration estimated to produce 50% inhibition (I0.5) of the enzyme at pH 8.0 is: dequalinium (8 microM), rhodamine 6G (10 microM), malachite green (14 microM), rosaniline (15 microM) greater than acridine orange (180 microM) greater than rhodamine 123 (270 microM) greater than rhodamine B (475 microM), coriphosphine (480 microM) greater than safranin O (1140 microM) greater than pyronin Y (1650 microM) greater than Nile blue A (greater than 2000 microM). The ATPase activity was also inhibited by the following cationic, amphiphilic peptides: the bee venom peptide, melittin; a synthetic peptide corresponding to the presence of yeast cytochrome oxidase subunit IV (WT), and amphiphilic, synthetic peptides which have been shown (Roise, D., Franziska, T., Horvath, S.J., Tomich, J.M., Richards, J.H., Allison, D.S. and Schatz, G. (1988) EMBO J. 7, 649-653) to function in mitochondrial import when attached to dihydrofolate reductase (delta 11.12, Syn-A2, and Syn-C). The order of effectiveness of the peptide inhibitors as assessed by I0.5 values is: Syn-A2 (40 nM), Syn-C (54 nM) greater than melittin (5 microM) greater than WT (16 microM) greater than delta 11,12 (29 microM). Rhodamines B and 123, dequalinium, melittin, and Syn-A2 showed noncompetitive inhibition, whereas each of the other inhibitors examined (rhodamine 6G, rosaniline, malachite green, coriphosphine, acridine orange, and-Syn-C) showed mixed inhibition. Replots of slopes and intercepts from Lineweaver-Burk plots obtained for dequalinium were hyperbolic indicating partial inhibition. With the exception of Syn-C, for which the slope replot was hyperbolic and the intercept replot was parabolic, steady-state kinetic analyses indicated that inhibition by the other inhibitors was complete. The inhibition constants obtained by steady-state kinetic analyses were in agreement with the I0.5 values estimated for each inhibitor examined. Rhodamine 6G, rosaniline, dequalinium, melittin, Syn-A2, and Syn-C were observed to protect F1 against inactivation by the aziridinium of quinacrine mustard in accord with their experimentally determined I0.5 values.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Inhibition of the bovine-heart mitochondrial F1-ATPase by cationic dyes and amphipathic peptides. 252 62

Heart transplantation involves chronic effects due to denervation, rejection, and treatment of rejection. The chronically denervated dog heart provides a model for the effects of denervation alone. These hearts have been shown to contain intrinsic neurons with VIP and NPY as possible neurotransmitters. Myocardial tissue noradrenaline concentration falls to very low levels after degeneration of postganglionic sympathetic neurons, but dopamine remains in near-normal concentration and is probably synthesized extraneuronally. ANP is present and released normally; however, the natriuretic response to atrial distension is blunted, suggesting that this response is mainly due to a reflex mechanism. Chronically denervated myocardial tissue exhibits increased oxygen consumption in vitro and increased Na-K, ATPase activity but has normal tissue levels of ATP and creatine phosphate. Glucose oxidation is inhibited in vivo, associated with increased levels of fructose-6-phosphate but normal glucose-6-phosphate, suggesting inhibition of phosphofructokinase activity. However, the enzyme protein concentration of phosphofructokinase, as judged by maximal in vitro activity, is normal. Maximal in vitro activities of succinate dehydrogenase, cytochrome oxidase, monoamine oxidase, calcium-dependent ATPase, and glyceraldehyde-3-dehydrogenase are also normal. From these findings, we would predict that patients with transplanted hearts are likely to show myocardial metabolic inefficiency.
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PMID:Cellular abnormalities in chronically denervated myocardium. Implications for the transplanted heart. 253 6

Since the inception of the 14C-deoxyglucose method and its extension to in vivo imaging of regional cerebral glucose metabolism in humans by positron emission tomography, uncertainty has persisted concerning the type of work to which regional metabolism is coupled, as well as the distribution of this work within the neuron. 14C-deoxyglucose studies indicate that functionally-coupled neural metabolism is more apparent in axon terminals and perhaps dendrites than neuronal perikarya. Moreover, it appears that most of the metabolism in axon terminals is accounted for by Na+-K+-ATPase activity. Nevertheless, cytochrome oxidase histochemistry reveals the presence of intensely reactive mitochondria in soma-dendrite regions opposite presynaptic axon terminals, thereby indicating that continuous temporal and spatial summation of postsynaptic graded potentials is associated with increased metabolism. While the situation concerning the relative postsynaptic metabolic prices of EPSP's and IPSP's remains uncertain, the presence of elevated levels of cytochrome oxidase activity within certain classes of presynaptic terminals indicates that active excitation and inhibition is associated with increases in presynaptic metabolism. This observation has been confirmed in 14C-deoxyglucose studies. Nevertheless, studies of neonatal hippocampus indicate that, before metabolic activity shifts to dendritic and telodendritic regions of electrophysiological activity, metabolism is high in somal foci of biosynthesis.
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PMID:The relationship between CNS metabolism and cytoarchitecture: a review of 14C-deoxyglucose studies with correlation to cytochrome oxidase histochemistry. 253 21

Cytoplasmic granules obtained from toad urinary bladder epithelial cells were brought to buoyancy in a linear sucrose gradient. The gradient was loaded either with untreated cytoplasmic granules, or with granules treated with Na pyrophosphate (PPi), with digitonin, or with PPi and digitonin in succession. The following enzymes were assayed in the gradient subfractions: oligomycin-insensitive Mg++-ATPase, alkaline phosphodiesterase I, alkaline phosphatase, acid N-acetyl-beta-glucosaminidase, cytochrome oxidase, nucleoside diphosphatase (substrate, ADP), aminopeptidase (substrate, leucyl-beta-naphthylamide), and mannosyltransferase (acceptor, dolichylphosphate). Comparison of the density distributions of enzymes in untreated and treated preparations led to the characterization of 4 distinct subcellular entities. In agreement with the properties of mitochondria from other cell types, cytochrome oxidase buoys at 1.18 within a narrow density range and its behavior is not significantly altered by PPi or digitonin. Under all conditions, acid N-acetyl-beta-glucosaminidase is recovered over a broad density range in the lower part of the gradient and appears as a qualified lysosomal marker. Mg++-ATPase, alkaline phosphodiesterase I, and alkaline phosphatase belong to a group with the distinguishing features of a low equilibrium density in native cytoplasmic granules and a marked shift (+0.03 density units) after digitonin treatment. Such properties are typical of the plasma membranes. Part of the aminopeptidase activity probably also belongs to plasma membrane-derived elements. Minor differences between alkaline phosphatase and the other 2 members of that group make it possible that their distribution domains in the membrane do not overlap or coincide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Subcellular fractionation of epithelial cells from toad urinary bladder. 2. Isopycnic centrifugation and effect of density perturbants. 255 74

The yeast nuclear gene ATP4, encoding the ATP synthase subunit 4, was disrupted by insertion into the middle of it the selective marker URA3. Transformation of the Saccharomyces cerevisiae strain D273-10B/A/U produced a mutant unable to grow on glycerol medium. The ATP4 gene is unique since subunit 4 was not present in mutant mitochondria; the hypothetical truncated subunit 4 was never detected. ATPase was rendered oligomycin-insensitive and the F1 sector of this mutant appeared loosely bound to the membrane. Analysis of mitochondrially translated hydrophobic subunits of F0 revealed that subunits 8 and 9 were present, unlike subunit 6. This indicated a structural relationship between subunits 4 and 6 during biogenesis of F0. It therefore appears that subunit 4 (also called subunit b in beef heart and Escherichia coli ATP synthases) plays at least a structural role in the assembly of the whole complex. Disruption of the ATP4 gene also had a dramatic effect on the assembly of other mitochondrial complexes. Thus, the cytochrome oxidase activity of the mutant strain was about five times lower than that of the wild type. In addition, a high percentage of spontaneous rho- mutants was detected.
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PMID:The role of subunit 4, a nuclear-encoded protein of the F0 sector of yeast mitochondrial ATP synthase, in the assembly of the whole complex. 255

The short-term cooling of hen eggs under incubation was studied for its effect on the dynamics of the activity of cytochrome oxidase (CO) and anion ATPase in the brain and liver of 15- and 20-day hen embryos and 5-day chickens. The temperature fall in the embryonal period was established to stimulate the activity of bicarbonate-dependent ATPase in the brain and to suppress it in the liver tissue. The CO activity was also subjected to similar alterations.
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PMID:[The effect of egg incubation temperature on the activity of cytochrome oxidase and anionic ATPase in chicken ontogenesis]. 255 49

H2-Receptor antagonists and omeprazole, a H-K ATPase inhibitor, inhibit acid secretion from the parietal cells. The ultrastructural changes of the parietal cells after treatment have been described, but the changes in the mitochondrial activity which reflect the energetic metabolism were not well defined. To study the effect of omeprazole and H2-receptor antagonists on the mitochondrial activity of the parietal cells, endoscopic biopsies were taken from nine patients with duodenal ulcer before and after treatment with either 10 mg or 20 mg omeprazole each morning, or 150 mg ranitidine twice daily for 2 weeks, given in a double-blind randomized manner. Three patients with healed duodenal ulcer who were on maintainence treatment with 150 mg ranitidine nightly for 1 year had an endoscopy performed after 4 and 12 months and two non-ulcer dyspeptic patients were recruited as controls. Three biopsies were taken during each endoscopy from the body of the stomach. The mitochondrial activity was assessed by the reaction of succinic dehydrogenase with nitroblue tetrazolium and of cytochrome oxidase with naphthoic acid mixed with N-phenyl-p-phenylenediamine, according to the intensity of the staining reaction. After treatment with omeprazole or ranitidine, the mitochondrial activity decreased appreciably and returned to the pretreatment level on cessation of treatment. Patients on maintainence ranitidine showed decreased mitochondrial activities after 4 months, which, however, returned to pretreatment levels in two patients. It is concluded that short-term treatment with omeprazole or ranitidine resulted in reversible suppression of mitochondrial activity while long-term treatment with ranitidine resulted in an initial suppression followed by a tendency to return to pretreatment level despite continued treatment.
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PMID:Parietal cells in duodenal ulcer disease: a histochemical study of the effects of omeprazole and ranitidine on mitochondrial activities. 256 33

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