Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.5 (NADH dehydrogenase)
 2,135 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Iron catalyzed free radical formation and lipid peroxidation are accepted mechanisms of heme protein-induced acute renal failure. However, the source(s) of those free radicals which trigger lipid peroxidation in proximal tubular cells remains unknown. This study tested the potential involvement of mitochondrial electron transport, xanthine oxidase activity, and arachidonic acid metabolism in the heme-induced peroxidative state. The impact of cytosolic Ca2+ loading also was assessed. Rhabdomyolysis was induced in mice by glycerol injection, and two hours later heme-laden proximal tubular segments (PTS) were isolated for study. PTS from normal mice served as controls. During 30 to 60 minute incubations, heme loaded PTS developed progressive cytotoxicity (LDH release) and iron-dependent lipid peroxidation (malondialdehyde, MDA, generation; inhibited by deferoxamine). Site 2 (antimycin A) or site 3 (cyanide, hypoxia) mitochondrial respiratory chain inhibition completely blocked lipid peroxidation, whereas site 1 inhibition (rotenone) doubled its extent (presumably by shunting NADH through NADH dehydrogenase, a free radical generating system). Conversely, these agents did not substantially alter MDA in normal PTS. Normal and heme loaded PTS developed comparable degrees of LDH release during respiratory blockade irrespective of increased or decreased MDA production (indicating that lipid peroxidation was not a critical determinant of cell death). Neither increasing free arachidonic acid (PLA2 treatment) nor adding cyclooxygenase/lipoxygenase/cytochrome p450 inhibitors conferred a consistent protective effect. Altering free Ca2+ status (chelators; ionophore addition) and xanthine oxidase inhibition had no discernible impacts. Despite mitochondrial free radical production, mitochondrial function, as assessed by the ATP/ADP ratio, seemingly remained intact. In conclusion, (1) the terminal mitochondrial respiratory chain is the dominant source of free radicals which trigger PTS lipid peroxidation; (2) iron is a required secondary factor; (3) although mitochondria fuel lipid peroxidation, they do not appear to be critical targets of the heme-induced oxidant attack.
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PMID:Mitochondrial free radical production induces lipid peroxidation during myohemoglobinuria. 864 15

The mitochondrial electron-transport chain present in the procyclic and long slender bloodstream forms of Trypanosoma brucei brucei was investigated by means of several experimental approaches. The oxidation of proline, glycerol and glucose in procyclic cells was inhibited 80-90% by antimycin A or cyanide, 15-19% by salicylhydroxamic acid, and 30-35% by rotenone. Cytochrom-c-reductase activity, with proline or glycerol 3-phosphate as substrate, in a mitochondrial fraction isolated from these cells was inhibited by antimycin and rotenone, but not by malonate, while cytochrome-c-reductase activity with succinate as substrate was inhibited by antimycin A and malonate, but not by rotenone. In addition, the reduction of dichloroindophenol by NADH was inhibited by rotenone but not by malonate, which suggests that rotenone-sensitive NADH dehydrogenase (complex I) is present in these mitochondria. The presence of three subunits of NADH dehydrogenase was observed in immunoblots of mitochondrial proteins with specific antibodies raised against peptides corresponding to predicted antigenic regions of these proteins, which provides further evidence for the presence of NADH dehydrogenase. In long slender bloodstream forms, the oxidation of glucose or glycerol was inhibited 100% by salicyhydroxamic acid, unaffected by cyanide or antimycin A, and inhibited 40% or 75%, respectively, by rotenone, which suggests that NADH dehydrogenase is present in these cells. In a mitochondrial fraction isolated from the bloodstream forms, oxygen uptake with glycerol 3-phosphate as substrate was inhibited 65% by rotenone. Low levels of rotenone-sensitive NADH-dependent reduction of dichloroindophenol and the presence of subunits 7 and 8 of NADH dehydrogenase provided additional evidence for the presence of NADH dehydrogenase in bloodstream forms of T. brucei.
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PMID:The presence of rotenone-sensitive NADH dehydrogenase in the long slender bloodstream and the procyclic forms of Trypanosoma brucei brucei. 894 79

The effects of chronic, around the clock, low-frequency electrostimulation on the respiratory chain activity and cytochrome content of freshly isolated mitochondria were evaluated in rabbit skeletal muscle before and after 30 days of continuous or cyclical electrostimulation using a totally implantable system and a training programme now used in humans. The respiratory activity measured in state III increased strongly after electrostimulation. The efficiency of the respiratory chain increased significantly after electrostimulation but the activity of complex [(reduced nicotinamide adenine dinucleotide dehydrogenase) did not increase. The amount of cytochromes a and a3, b562, and c and c1 increased clearly after electrostimulation. The respiratory activity rate of mitochondria obtained after continuous electrostimulation was apparently higher than after cyclical electrostimulation. Chronic uninterrupted low-frequency electrostimulation, using a clinical training programme, induces an increase in mitochondrial respiratory chain activity in purified mitochondria of skeletal muscle. These changes are the basis of induced resistance to fatigue in fast-to-slow muscle conversion by chronic electrostimulation.
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PMID:Fast-to-slow muscle conversion by chronic electrostimulation: effects on mitochondrial respiratory chain function with possible implications for the gracilis neosphincter procedure. 911 26

The legume Vicia sativa (common vetch) harbors the neurotoxic nonprotein amino acid beta-cyano-L-alanine (BCLA) and its gamma-glutamyl derivative. BCLA elicits hyperexcitability, convulsions, and rigidity in chicks and rats after oral or intraperitoneal administration, but the mechanism of its action is unknown. The effect of different concentrations of BCLA (0.075-10.0 mM) has been investigated in an organotypic tissue culture system. BCLA concentrations of 0.075 and 0.60 mM had no effect, even up to 6 hr. No changes were observed in cultures treated with 1 mM BCLA for 4 hr. BCLA (2.0-10.0 mM) induces concentration-dependent changes in the explants. The explants display neurona vacuolation, chromatin, clumping, and dense shrunken cells, a pathological response generally seen with excitotoxin. MK-801 (35 microM), which blocks the open ion channel associated with the N-methyl-D-aspartate (NMDA) class of glutamate receptors, attenuates the neurotoxic property of BCLA, while the non-NMDA antagonist, 6-cyano-7-nitroquinoxaline-2,3-dione (10-20 microM), provides no significant protection. Treatment of isolated mouse brain mitochondria with up to 5 mM BCLA had no inhibitory effect on the activity of NADH dehydrogenase (complex I) or cytochrome or oxidase (complex IV), a cyanide-sensitive enzyme. These results suggest that the neurotoxicity of BCLA (or derivative) is mediated directly or indirectly through NMDA receptors.
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PMID:beta-Cyano-L-alanine toxicity: evidence for the involvement of an excitotoxic mechanism. 902 49

The effect of administration of ethionine on rat liver mitochondrial functions and the protective effect of vitamin E on ethionine induced damage was studied. Ethionine treatment decreased the rate of respiration, respiratory control ratio and P/O ratio. There was a significant decrease in the activities of NADH dehydrogenase, succinate cytochrome C reductase and cytochrome oxidase. A significant decrease was seen on membrane potential and on the levels of ATP. Among the mitochondrial phospholipids only cardiolipin decreased significantly. The lipid peroxide level increased significantly in ethionine treated rats. Administration of vitamin E prior to ethionine treatment relieved the effects (induced by ethionine) on all the parameters studied. This study shows that vitamin E protects against ethionine toxicity.
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PMID:Protective effect of vitamin E against ethionine toxicity. 911 39

Twenty-four-hour-old, aerobically grown, Luria-Bertani broth cultures of Salmonella typhimurium F98 suppressed the growth of a spectinomycin-resistant (Spcr) derivative of the same strain inoculated at 10(3) CFU ml(-1). This growth suppression is genus specific and RpoS independent, and it is not solely a result of nutrient depletion (P. A. Barrow, M. A. Lovell, and L. Zhang-Barber, J. Bacteriol. 178:3072-3076, 1996). Mutations in three genes are shown here to significantly reduce growth suppression under these conditions. The mutations were located in the nuo, cyd, and unc operons, which code for the NADH dehydrogenase I, cytochrome d oxidase, and F0F1 proton-translocating ATPase complexes, respectively. When cultures were grown under strictly anaerobic conditions, only the unc mutant did not suppress growth. Prior colonization of the alimentary tract of newly hatched chickens with the S. typhimurium F98 wild type or nuo or cyd mutants suppressed colonization by an S. typhimurium F98 Spcr derivative inoculated 24 h later. In contrast, the S. typhimurium unc mutant did not suppress colonization. The nuo and unc mutants showed poorer growth on certain carbon sources. The data support the hypothesis that growth suppression operates because of the absence of a utilizable carbon source or electron acceptor.
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PMID:Influence of genes encoding proton-translocating enzymes on suppression of Salmonella typhimurium growth and colonization. 937 70

Inhibitor titrations using antimycin have been used to study the pool behavior of ubiquinone and cytochrome c in the respiratory chain of the yeast Saccharomyces cerevisiae. If present in a homogeneous pool, these carriers should be able to diffuse freely through or along the membrane respectively and accept and subsequently donate electrons to an infinite number of the respective respiratory complex. However, we show that under physiological conditions neither ubiquinone nor cytochrome c exhibits pool behavior, implying that the respiratory chain in yeast is one functional unit. Pool behavior can be introduced for both small carriers by adding chaotropic agents to the reaction medium. We conclude that these agents disrupt the interaction between the respiratory complexes, thereby causing them to become randomly arranged in the membrane. In such a situation, ubiquinone and cytochrome c become mobile carriers, shuttling between the large respiratory complexes. Furthermore, we conclude from the respiratory activities found for different substrates that the respiratory units in yeast vary in composition with respect to the ubiquinone reducing enzyme. All units contain the cytochrome chain, supplemented with either succinate dehydrogenase or the internal or the external NADH dehydrogenase. This implies that when only one substrate is available, only a certain fraction of the cytochrome chain is used in respiration. The molecular organization of the respiratory chain in yeast is compared with that of higher eukaryotes and to the electron transfer systems of photosynthetic membranes. Differences between the organization of the respiratory chain of yeast and that of higher eukaryotes are discussed in terms of the ability of yeast to radically alter its metabolism in response to change of the available carbon source.
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PMID:The respiratory chain in yeast behaves as a single functional unit. 947 28

The activities of the enzymes NADH dehydrogenase, NADH cytochrome e reductase, succinate dehydrogenase, succinate cytochrome e reductase, cytochrome c oxidase and citrate synthase in normal and sick human skeletal muscle mitochondria were determined. A control group was formed by 13 normal people and without using continuous medication. The patient group was formed by 10 people whose pathological diagnosis indicated suspicion of mitochondrial myopathy. A decrease in the activity of the enzymes in all patient was observed: 7 with abnormality in all the tested enzymes; 2 with deficiencies in all the enzymes except cytochrome e oxidase; and 1 with dysfunction only in the activities of succinate dehydrogenase and succinate cytochrome e reductase. The results indicate multiple or combined deficiencies in the respiratory chain, besides dysfunction of citrate synthase in 9 patients. In one exceptional case, the enzymatic deficiency was restricted to complex II. It is possible to conclude that the methodology used herein is adequate and easily applicable to clinical objectives, and that the results obtained allow characterization of the deficient mitochondrial enzymatic complexes, thus showing that the origin of the diseases is an energetic metabolic dysfunction.
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PMID:[Characterization of mitochondrial myopathies through the evaluation of the enzymatic activities involved in energy metabolism]. 962 85

The effect of alpha-tocopherol pretreatment (6 mg/100 g body wt/day, orally for a period of 90 days) on mitochondrial electron transport in myocardial infarction induced by isoproterenol (20 mg/100 g body wt, subcutaneously for two days) was studied in rats. A significant decrease was observed in the activities of isocitrate dehydrogenase, alpha-ketoglutarate dehydrogenase, succinate dehydrogenase, malate dehydrogenase, NADH dehydrogenase and cytochrome oxidase in heart mitochondria of isoproterenol administered rats. The cytochrome content and the oxidation of succinate in state 3 and state 4 decreased significantly in the cardiac mitochondria treatment. In alpha-tocopherol pretreated rats, the activities of TCA cycle enzymes, concentration of cytochromes and the oxidation of succinate in state 3 and state 4 were retained at near normal values, following isoproterenol administration.
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PMID:Effect of alpha-tocopherol on mitochondrial electron transport in experimental myocardial infarction in rats. 975 71

We describe here a new type of mitochondrial mutation (dum24; for dark uniparental minus inheritance) of the unicellular photosynthetic alga Chlamydomonas reinhardtii. The mutant fails to grow under heterotrophic conditions and displays reduced growth under both photoautotrophic and mixotrophic conditions. In reciprocal crosses between mutant and wild-type cells, the meiotic progeny only inherit the phenotype of the mating-type minus parent, indicating that the dum24 mutation exclusively affects the mitochondrial genome. Digestion with various restriction enzymes followed by DNA gel blot hybridizations with specific probes demonstrated that dum24 cells contain four types of altered mitochondrial genomes: deleted monomers lacking cob, nd4, and the 3' end of the nd5 gene; deleted monomers deprived of cob, nd4, nd5, and the 5' end of the cox1 coding sequence; and two types of dimers produced by end-to-end fusions between monomers similarly or differently deleted. Due to these mitochondrial DNA alterations, complex I activity, the cytochrome pathway of respiration, and presumably, the three phosphorylation sites associated with these enzyme activities are lacking in the mutant. The low respiratory rate of the dum24 cells results from the activities of rotenone-resistant NADH dehydrogenase, complex II, and alternative oxidase, with none of these enzymes being coupled to ATP production. To our knowledge, this type of mitochondrial mutation has never been described for photosynthetic organisms or more generally for obligate aerobes.
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PMID:Alteration of dark respiration and reduction of phototrophic growth in a mitochondrial DNA deletion mutant of Chlamydomonas lacking cob, nd4, and the 3' end of nd5. 987 36


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