EC:1.3.5.1 - FACTA Search

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Query: EC:1.3.5.1 (succinate dehydrogenase)
8,177 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of the present study was to examine whether parameters of isolated mitochondria could account for the in vivo maximum oxygen uptake (VO2max) of human skeletal muscle. VO2max and work performance of the quadriceps muscle of six volunteers were measured in the knee extensor model (range 10-18 mmol O2 x min(-1) x kg(-1) at work rates of 22-32 W/kg). Mitochondria were isolated from the same muscle at rest. Strong correlations were obtained between VO2max and a number of mitochondrial parameters (mitochondrial protein, cytochrome aa3, citrate synthase, and respiratory activities). The activities of citrate synthase, succinate dehydrogenase, and pyruvate dehydrogenase, measured in isolated mitochondria, corresponded to, respectively, 15, 3, and 1.1 times the rates calculated from VO2max. The respiratory chain activity also appeared sufficient. Fully coupled in vitro respiration, which is limited by the rate of ATP synthesis, could account for, at most, 60% of the VO2max. This might be due to systematic errors or to loose coupling of the mitochondrial respiration under intense exercise.
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PMID:Aerobic metabolism of human quadriceps muscle: in vivo data parallel measurements on isolated mitochondria. 1115 34

The accumulation in muscles and the effect of different concentrations of niclosamide (Bayluscide) on the metabolic enzymes; succinate dehydrogenase (SDH), pyruvate dehydrogenase (PDH) and lactate dehydrogenase (LDH) in the liver of the Thin-lip grey mullet after 1, 2 & 3 weeks were studied. The molluscicide residues were detected in the muscles. The residues increased with the increase of concentrations of niclosamide as well as the time of exposure. On the other hand, LDH showed significant increase. But, SDH and PDH showed significant decrease. No doubt, this disturbance in the three liver enzymes cause disturbance in the process of metabolism. The important point is what about man who consumes a fish with niclosamide accumulated in its muscles.
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PMID:Effect of niclosamide on the marketable fish Liza ramada (Risso, 1826) concerning accumulation in muscles and activities of three metabolic liver enzymes. 1119 77

Six young men performed five 1-min bicycle exercise bouts to exhaustion. Muscle lactate increased to congruent with 114 mmol x kg(-1) dwt and pH decreased to congruent with 6.6. Mitochondria were prepared from a needle biopsy sample taken from m. vastus lateralis immediately after the last exercise bout. No significant effect of exhaustion on the proton permeability and amount of cytochromes c and aa3 in isolated mitochondria was detected. The activities of the following enzymes and systems were not altered either: citrate synthase, succinate dehydrogenase, cytochrome oxidase, succinate + glutamate respiration, malate + glutamate respiration, the respiratory chain, and the reactions involved in ATP synthesis. Thus, the mitochondria did not appear globally altered upon exhaustion. However, the following NAD-linked activities were significantly lowered: pyruvate dehydrogenase, alpha-ketoglutarate dehydrogenase, glutamate dehydrogenase and fatty acid beta-oxidation. The activities of alpha-glycerophosphate dehydrogenase and exo-NADH oxidase, enzymes that might catalyze the oxidation of sarcoplasmic NADH, were increased. These changes may be due to the action of reactive oxygen species, protons and Ca2+. Transient opening of the permeability transition pore may also be involved. Some effects may have been reversed during isolation of the mitochondria and the changes in mitochondrial function in situ upon exhaustion may have been more extensive than observed.
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PMID:The effect of high-intensity exhaustive exercise studied in isolated mitochondria from human skeletal muscle. 1171 42

In childhood mitochondrial encephalopathies the common MRI features are bilateral symmetric abnormalities in basal nuclei and brainstem. The presence of diffuse white matter abnormality has been described only in a few cases. Among a series of 110 children with mitochondrial encephalopathies, 8 patients with MR imaging consistent with a leukoencephalopathy were retrospectively evaluated. Diagnosis was based on the recognition of the biochemical defect in muscle homogenate. H-MR spectroscopic imaging was performed in six of them. Biochemical analysis demonstrated a defect of respiratory chain complexes in six patients: complex I in two cases, complex II in two, complex IV in one, multiple complexes defect in one. Pyruvate dehydrogenase deficiency was demonstrated in two patients. MRI showed severe involvement of the brain white matter without significant basal nuclei or brainstem abnormalities. Two patients developed large cystic areas since onset; in two others progressive vacuolisation of affected white matter was seen later in the course of the disease. One patient with pyruvate dehydrogenase deficiency also presented with a diffuse cortical polymicrogyria. H-MR spectroscopic imaging showed a decrease of N-acetylaspartate, choline and creatine with lactate accumulation in five patients, and was normal in one. These findings suggest that mitochondrial disorders should be included in the differential diagnosis of white matter disorders.
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PMID:Cerebral white matter involvement in children with mitochondrial encephalopathies. 1207 88

A transient energy impairment with resultant release and subsequent reuptake of 5-hydroxytryptamine (5-HT) and NMDA receptor activation with consequent cytoplasmic superoxide (O(2)(-)(*)), nitric oxide (NO(*)), and peroxynitrite (ONOO(-)) generation have all been implicated in a neurotoxic cascade which ultimately leads to the degeneration of serotonergic neurons evoked by methamphetamine (MA) and 3,4-methylenedioxymethamphetamine (MDMA). Such observations raise the possibility that the O(2)(-)(*)/NO(*)/ONOO(-)-mediated oxidation of 5-HT, as it returns via the plasma membrane transporter to the cytoplasm of serotonergic neurons when the MA/MDMA-induced energy impairment begins to subside, may generate an endogenous neurotoxin. In vitro the O(2)(-)(*)/NO(*)/ONOO(-)-mediated oxidation of 5-HT forms tryptamine-4,5-dione (T-4,5-D). When incubated with intact rat brain mitochondria, T-4,5-D strongly inhibits state 3 respiration with pyruvate or alpha-ketoglutarate as substrates at concentrations which do not affect succinate-supported (complex II) respiration. Experiments with freeze-thawed rat brain mitochondria reveal that T-4,5-D inhibits the pyruvate dehydrogenase and alpha-ketoglutarate dehydrogenase complexes. These and other properties of T-4,5-D raise the possibility that it may be an endogenously formed intraneuronal metabolite of 5-HT that contributes to the serotonergic neurotoxicity of MA and MDMA.
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PMID:Inhibition of the alpha-ketoglutarate dehydrogenase and pyruvate dehydrogenase complexes by a putative aberrant metabolite of serotonin, tryptamine-4,5-dione. 1238 20

The amino acid producing Corynebacterium glutamicum grows aerobically on a variety of carbohydrates and organic acids as single or combined sources of carbon and energy. Among the substrates metabolized are glucose and acetate which both can also serve as substrates for amino acid production. Based on biochemical, genetic and regulatory studies and on quantitative determination of metabolic fluxes during utilization of acetate and/or glucose, this review summarizes the present knowledge on the different steps of the fundamental pathways of acetate utilization in C. glutamicum, namely, on acetate transport, acetate activation, tricarboxylic acid (TCA) cycle, glyoxylate cycle and gluconeogenesis. It becomes evident that, although the pathways of acetate utilization follow the same theme in many bacteria, important biochemical, genetic and regulatory peculiarities exist in C. glutamicum. Recent genome wide and comparative expression analyses in C. glutamicum cells grown on glucose and on acetate substantiated previously identified transcriptional regulation of acetate activating enzymes and of glyoxylate cycle enzymes. Additionally, a variety of genes obviously also under transcriptional control in response to the presence or absence of acetate in the growth medium were uncovered. These genes, thus also belonging to the acetate stimulon of C. glutamicum, include genes coding for TCA cycle enzymes (e.g. aconitase and succinate dehydrogenase), for gluconeogenesis (phosphoenolpyruvate carboxykinase), for glycolysis (pyruvate dehydrogenase E1) and genes coding for proteins with hitherto unknown function. Although the basic mechanism of transcriptional regulation of the enzymes involved in acetate metabolism is not yet understood, some recent findings led to a better understanding of the adaptation of C. glutamicum to acetate at the molecular level.
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PMID:Acetate metabolism and its regulation in Corynebacterium glutamicum. 1294 33

We have isolated a Kluyveromyces lactis mutant unable to grow on all respiratory carbon sources with the exception of lactate. Functional complementation of this mutant led to the isolation of KlSDH1, the gene encoding the flavoprotein subunit of the succinate dehydrogenase (SDH) complex, which is essential for the aerobic utilization of carbon sources. Despite the high sequence conservation of the SDH genes in Saccharomyces cerevisiae and K. lactis, they do not have the same relevance in the metabolism of the two yeasts. In fact, unlike SDH1, KlSDH1 was highly expressed under both fermentative and nonfermentative conditions. In addition to this, but in contrast with S. cerevisiae, K. lactis strains lacking KlSDH1 were still able to grow in the presence of lactate. In these mutants, oxygen consumption was one-eighth that of the wild type in the presence of lactate and was normal with glucose and ethanol, indicating that the respiratory chain was fully functional. Northern analysis suggested that alternative pathway(s), which involves pyruvate decarboxylase and the glyoxylate cycle, could overcome the absence of SDH and allow (i) lactate utilization and (ii) the accumulation of succinate instead of ethanol during growth on glucose.
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PMID:The deletion of the succinate dehydrogenase gene KlSDH1 in Kluyveromyces lactis does not lead to respiratory deficiency. 1518 81

Thiamine (Vitamin B1) deficiency (TD) leads to memory deficits and neurological disease in animals and humans. The thiamine-dependent enzymes of the tricarboxylic acid (TCA) cycle are reduced following TD and in the brains of patients that died from multiple neurodegenerative diseases. Whether reductions in thiamine or thiamine-dependent enzymes leads to changes in all TCA cycle enzymes has never been tested. In the current studies, the pyruvate dehydrogenase complex (PDHC) and all of enzymes of the TCA cycle were measured in the brains of TD mice. Non-thiamine-dependent enzymes such as succinate dehydrogenase (SDH), succinate thiokinase (STH) and malate dehydrogenase (MDH) were altered as much or more than thiamine-dependent enzymes such as the alpha-ketoglutarate dehydrogenase complex (KGDHC) (-21.5%) and PDHC (-10.5%). Succinate dehydrogenase (SDH) activity decreased by 27% and succinate thiokinase (STH) decreased by 24%. The reductions in these other enzymes may result from oxidative stress because of TD or because these other enzymes of the TCA cycle are part of a metabolon that respond as a group of enzymes. The results suggest that other TCA cycle enzymes should be measured in brains from patients that died from neurological disease in which thiamine-dependent enzymes are known to be reduced. The diminished activities of multiple TCA cycle enzymes may be important in our understanding of how metabolic lesions alter brain function in neurodegenerative disorders.
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PMID:Tricarboxylic acid cycle enzymes following thiamine deficiency. 1533 1

We investigated whether substrate availability influences the type of energy metabolism in procyclic Trypanosoma brucei. We show that absence of glycolytic substrates (glucose and glycerol) does not induce a shift from a fermentative metabolism to complete oxidation of substrates. We also show that glucose (and even glycolysis) is not essential for normal functioning and proliferation of pleomorphic procyclic T. brucei cells. Furthermore, absence of glucose did not result in increased degradation of amino acids. Variations in availability of glucose and glycerol did result, however, in adaptations in metabolism in such a way that the glycosome was always in redox balance. We argue that it is likely that, in procyclic cells, phosphoglycerate kinase is located not only in the cytosol, but also inside glycosomes, as otherwise an ATP deficit would occur in this organelle. We demonstrate that procyclic T. brucei uses parts of the Krebs cycle for purposes other than complete degradation of mitochondrial substrates. We suggest that citrate synthase plus pyruvate dehydrogenase and malate dehydrogenase are used to transport acetyl-CoA units from the mitochondrion to the cytosol for the biosynthesis of fatty acids, a process we show to occur in proliferating procyclic cells. The part of the Krebs cycle consisting of alpha-ketoglutarate dehydrogenase and succinyl-CoA synthetase was used for the degradation of proline and glutamate to succinate. We also demonstrate that the subsequent enzymes of the Krebs cycle, succinate dehydrogenase and fumarase, are most likely used for conversion of succinate into malate, which can then be used in gluconeogenesis.
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PMID:New functions for parts of the Krebs cycle in procyclic Trypanosoma brucei, a cycle not operating as a cycle. 1564 63

Hydrogenosomes are organelles that produce ATP and hydrogen, and are found in various unrelated eukaryotes, such as anaerobic flagellates, chytridiomycete fungi and ciliates. Although all of these organelles generate hydrogen, the hydrogenosomes from these organisms are structurally and metabolically quite different, just like mitochondria where large differences also exist. These differences have led to a continuing debate about the evolutionary origin of hydrogenosomes. Here we show that the hydrogenosomes of the anaerobic ciliate Nyctotherus ovalis, which thrives in the hindgut of cockroaches, have retained a rudimentary genome encoding components of a mitochondrial electron transport chain. Phylogenetic analyses reveal that those proteins cluster with their homologues from aerobic ciliates. In addition, several nucleus-encoded components of the mitochondrial proteome, such as pyruvate dehydrogenase and complex II, were identified. The N. ovalis hydrogenosome is sensitive to inhibitors of mitochondrial complex I and produces succinate as a major metabolic end product--biochemical traits typical of anaerobic mitochondria. The production of hydrogen, together with the presence of a genome encoding respiratory chain components, and biochemical features characteristic of anaerobic mitochondria, identify the N. ovalis organelle as a missing link between mitochondria and hydrogenosomes.
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PMID:An anaerobic mitochondrion that produces hydrogen. 1574 82

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