EC:2.3.3.1 - FACTA Search

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Query: EC:2.3.3.1 (citrate synthase)
4,488 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The genes encoding pyruvate dehydrogenase (PDH) of Thiobacillus ferrooxidans were previously located by cloning and sequence analysis of the region upstream of the genes encoding the citrate synthase and gamma glutamylcysteine synthetase genes. The pdh genes of T. ferrooxidans were able to complement an Escherichia coli aroP-lpd mutant for growth on minimal medium lacking acetate, indicating that the T. ferrooxidans PDH complex was functional in E. coli. The predicted amino acid sequence of the T. ferrooxidans PDH complex contained three ORFs. The first ORF encoded a 36.7 kDa homologue of the PDH complex E1 alpha subunit, the second ORF a 37.4 kDa E1 beta subunit and the third ORF an unusual 102 kDa fusion of the E2 and E3 subunits. In spite of T. ferrooxidans being a Gram-negative bacterium, its PDH complex had more features in common with Gram-positive bacteria and eukaryotes.
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PMID:The pyruvate dehydrogenase complex of the chemolithoautotrophic bacterium Thiobacillus ferrooxidans has an unusual E2-E3 subunit fusion. 924 8

Mammalian hibernation requires specific regulatory controls on metabolism to coordinate entry, maintenance, and arousal stages, as well as adjustments to many metabolic functions to support long-term dormancy. Several mechanisms of metabolic regulation are involved in potentiating survival. One of these is the reversible phosphorylation of regulatory enzymes, including glycogen phosphorylase, phosphofructokinase, pyruvate kinase, and pyruvate dehydrogenase. In particular, the sharp suppression of pyruvate dehydrogenase during hibernation shows the importance of control over mitochondrial oxidative metabolism for reducing metabolic rate. Fine control over specific enzymes also occurs via differential temperature effects on kinetic and allosteric properties. Analysis of temperature effects on the properties of pyruvate kinase, fructose-1,6-bisphosphatase, creatine kinase, and citrate synthase from ground squirrel or bat tissues shows a range of responses, some that would reduce enzyme activity in the hibernating state and some that would promote temperature-insensitive enzyme function. Reduced tissue phosphagen and adenylate levels, but not energy charge, may also contribute to overall metabolic suppression. New research is exploring the role of transcriptional and translational controls in hibernation via several approaches. For example, immunoblotting with antibodies to heat shock proteins (hsp 70 family) revealed the presence of constitutive hsc 70 in bat tissues but levels of the protein did not change between euthermic and hibernating states and neither the inducible hsp 70 nor the glucose-responsive protein grp 78 appeared during hibernation.
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PMID:Metabolic regulation in mammalian hibernation: enzyme and protein adaptations. 950 21

Treatment with the combination of almitrine-raubasine increases both arterial oxygen partial pressure and haemoglobin oxygen saturation, reflecting an actual increase in the oxygen content of arterial blood. Furthermore, at the trans-cerebral carotid artery/internal jugular vein level, the treatment increases cerebral arterio-venous oxygen and glucose differences, suggesting an actual increase both in oxygen and glucose availability and uptake in cerebral tissues. The increased glucose transfer to the brain is supported also by enhancement of the 3H-deoxyglucose uptake induced by drug pre-treatment both in normoxia and hypoxia. Both almitrine and raubasine act at cerebral mitochondrial levels by decreasing the 'loss' of the 'biological' free energy for phosphorylation supported by the age-related drop in the cerebral enzyme activities, such as phosphofructokinase, pyruvate dehydrogenase and citrate synthase. Furthermore, the components interfere with the alterations induced by peroxidative stress acting at the level of cytochrome c, cytochrome c oxidase and succinate dehydrogenase. Treatment with the combination almitrine-raubasine increases the concentration of noradrenaline metabolites, while alteration of the dopaminergic system is less important. The interference with the noradrenergic system is possibly linked to the electroencephalographic changes induced by drug treatment: increasing alpha-rhythm distribution and reactivity, and increases in beta-rhythm amplitude. Pharmacological effects of almitrine-raubasine, obtained in experimental conditions, correlate with clinical therapeutic efficacy, e.g., in the treatment of cognitive disorders associated with ageing and other cerebral and neurosensory impairments. It is difficult to summarise, in a few pages, the large number of papers related to the cerebral pharmacometabolic and pharmacodynamic activities of the almitrine-raubasine combination. Thus, this review presents in sequential steps some of the interrelated research in humans and laboratory animals which describes in a critical way preclinical to clinical results.
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PMID:Pharmacological features of an almitrine-raubasine combination. Activity at cerebral levels. 951 73

In a newborn girl with a history of connatal liver damage, histological examination of a liver biopsy sample taken during the seventh week of life revealed incipient destruction of bile ducts. Very high titres of antimitochondrial antibodies were later detected in the plasma. As the hepatic injury tended towards fibrosis, the histological diagnosis became primary biliary cirrhosis. Autoantibodies against E1 alpha, E2, and E3 subunits and protein X component of pyruvate dehydrogenase complex, and against citrate synthase were detected on western immunoblotting in a 1 in 1000 dilution of the patient's serum. The patient died of her illness at 11 years of age. In liver specimens obtained at autopsy human immunoglobulin deposition was detected on the surface of almost all hepatic cells by immunohistology. As there is a physical and functional interaction between pyruvate dehydrogenase and citrate synthase within the mitochondria, the presence of autoantibodies against certain proteins in the patient suggests that in this form of the disease the molecular recognition and then the autoimmunisation process could be directed against a mitochondrial enzyme cluster containing both pyruvate dehydrogenase and citrate synthase.
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PMID:Autoantibodies against subunits of pyruvate dehydrogenase and citrate synthase in a case of paediatric biliary cirrhosis. 965 76

Muscle metabolism, including the role of pyruvate dehydrogenase (PDH) in muscle lactate (Lac-) production, was examined during incremental exercise before and after 7 days of submaximal training on a cycle ergometer [2 h daily at 60% peak O2 uptake (VO2 max)]. Subjects were studied at rest and during continuous steady-state cycling at three stages (15 min each): 30, 65, and 75% of the pretraining VO2 max. Blood was sampled from brachial artery and femoral vein, and leg blood flow was measured by thermodilution. Biopsies of the vastus lateralis were obtained at rest and during steady-state exercise at the end of each stage. VO2 max, leg O2 uptake, and the maximum activities of citrate synthase and PDH were not altered by training; muscle glycogen concentration was higher. During rest and cycling at 30% VO2 max, muscle Lac- concentration ([Lac-]) and leg efflux were similar. At 65% VO2 max, muscle [Lac-] was lower (11.9 +/- 3.2 vs. 20.0 +/- 5.8 mmol/kg dry wt) and Lac- efflux was less [-0.22 +/- 0.24 (one leg) vs. 1.42 +/- 0.33 mmol/min] after training. Similarly, at 75% VO2 max, lower muscle [Lac-] (17.2 +/- 4.4 vs. 45.2 +/- 6.6 mmol/kg dry wt) accompanied less release (0.41 +/- 0.53 vs. 1.32 +/- 0.65 mmol/min) after training. PDH in its active form (PDHa) was not different between conditions. Calculated pyruvate production at 75% VO2 max fell by 33%, pyruvate reduction to lactate fell by 59%, and pyruvate oxidation fell by 24% compared with before training. Muscle contents of coenzyme A and phosphocreatine were higher during exercise after training. Lower muscle lactate production after training resulted from improved matching of glycolytic and PDHa fluxes, independently of changes in muscle O2 consumption, and was associated with greater phosphorylation potential.
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PMID:Effects of short-term submaximal training in humans on muscle metabolism in exercise. 968 84

A human pediatric cardiomyocyte cell culture model of chronic cyanosis was used to assess the effects of low oxygen tension on mitochondrial enzyme activity to address the postoperative increase in lactate and decreased ATP in the myocardium and the high incidence of low-output failure with restoration of normal oxygen tension, after technically successful corrective cardiac surgery. Chronically hypoxic cells (PO2 = 40 mmHg for 7 days) exhibited significantly reduced activities for pyruvate dehydrogenase, cytochrome-c oxidase, succinate cytochrome c reductase, succinate dehydrogenase, and citrate synthase. The activity of NADH-cytochrome c reductase was unaffected. Lactate production and the lactate-to-pyruvate ratio were significantly greater in hypoxic cardiomyocytes. Western and Northern analysis demonstrated a decrease in the levels of various mRNA and corresponding polypeptides in hypoxic cells. Thus hypoxia influences mitochondrial metabolism through acute and chronic adaptive mechanisms, reflecting allosteric (posttranscriptional) and transcriptional modulation. Transcriptional downregulation of key mitochondrial enzyme systems can explain the insufficient myocardial aerobic metabolism and low-output failure in children with cyanotic heart disease after cardiac surgery.
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PMID:Myocardial aerobic metabolism is impaired in a cell culture model of cyanotic heart disease. 981 75

To characterize human skeletal muscle enzymatic adaptation to a low-carbohydrate, high-fat, and high-protein diet (LCD), subjects consumed a eucaloric diet consisting of 5% of the total energy intake from carbohydrate, 63% from fat, and 33% from protein for 6 days compared with their normal diet (52% carbohydrate, 33% fat, and 14% protein). Biopsies were taken from the vastus lateralis before and after 3 and 6 days on a LCD. Intact mitochondria were extracted from fresh muscle and analyzed for pyruvate dehydrogenase (PDH) kinase, total PDH, and carnitine palmitoyltransferase I activities and mitochondrial ATP production rate (using carbohydrate and fat substrates). beta-Hydroxyacyl CoA dehydrogenase, active PDH (PDHa), and citrate synthase activities were also measured on whole muscle homogenates. PDH kinase (PDHK) was calculated as the absolute value of the apparent first-order rate constant of the inactivation of PDH in the presence of 0.3 mM Mg2+-ATP. PDHK increased dramatically from 0.10 +/- 0.02 min-1 to 0.35 +/- 0.09 min-1 at 3 days and 0.49 +/- 0. 06 min-1 after 6 days. Resting PDHa activity decreased from 0.63 +/- 0.17 to 0.17 +/- 0.04 mmol. min-1. kg-1 after 6 days on the diet, whereas total PDH activity did not change. Activities for all other enzymes were unaltered by the LCD. In summary, severe deficiency of dietary carbohydrate combined with a twofold increase in dietary fat and protein caused a rapid three- to fivefold increase in PDHK activity in human skeletal muscle. The increased PDHK activity downregulated the amount of PDH in its active form at rest and decreased carbohydrate metabolism. However, an increase in the activities of enzymes involved in fatty acid oxidation did not occur.
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PMID:Human skeletal muscle pyruvate dehydrogenase kinase activity increases after a low-carbohydrate diet. 984 40

The activities of pyruvate kinase (PK), pyruvate: formate-lyase (PFL), pyruvate dehydrogenase (PDH), and citrate synthase (CS) involved in the anaerobic glycerol conversion by Klebsiella pneumoniae were studied in continuous culture under conditions of steady states and sustained oscillations. Both the in vitro and in vivo activities of PK, PFL, and PDH are strongly affected by the substrate concentration and its uptake rate, as is the in vitro activity of CS. The flux from phosphoenolpyruvate to pyruvate is found to be mainly regulated on a genetic level by the synthesis rate of PK, particularly at low substrate concentration and low growth rate. In contrast, the conversion of pyruvate to acetyl-CoA is mainly regulated on a metabolic level by the in vivo activities of PFL and PDH. The ratio of in vitro to in vivo activities is in the range of 1 to 1.5 for PK, 5 to 17 for PFL and 5 to 80 for PDH under the experimental conditions. The regulation of in vivo activity and synthesis of these enzymes is sensitive to fluctuations of culture conditions, leading to oscillations of both the in vitro and in vivo activities. In particular, PFL is strongly affected during oscillations; its average in vitro activity is only about half of its corresponding steady-state value under similar environmental conditions. The average in vitro activities of PDH and PK under oscillations are close to their corresponding steady-state values. In contrast to all other enzymes measured for the glycerol metabolism by K. pneumoniae PFL and PDH are more effectively in vivo utilized under oscillations than under steady state, underlining the peculiar role of pyruvate metabolism in the dynamic responses of the culture.
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PMID:Kinetic, dynamic, and pathway studies of glycerol metabolism by Klebsiella pneumoniae in anaerobic continuous culture: IV. Enzymes and fluxes of pyruvate metabolism. 1009 70

The glucose-fatty acid cycle of Randle entails two elements: decreased pyruvate dehydrogenase (PDH) activity, which inhibits glucose oxidation, and inhibition of phosphofructokinase (PFK) by a rise in citrate so that glucose-6-phosphate (G-6-P) levels increase, thereby inhibiting hexokinase activity and hence glucose utilization. Chronic exposure of islets to long-chain fatty acids (FA) is reported to lower PDH activity, but the effect on glucose oxidation and glucose-induced insulin secretion is uncertain. We investigated rat islets that were cultured for 4 days with 0.25 mmol/l oleate/5.5 mmol/l glucose. Glucose oxidation was doubled at 2.8 mmol/l glucose and unchanged at 27.7 mmol/l glucose in the FA-cultured islets despite a 35% decrease in assayed PDH activity. Pyruvate content was increased 60%, which may well compensate for the decreased PDH activity and maintain flux through the citric acid cycle. However, a greater diversion of pyruvate metabolism through the pyruvate-malate shuttle is suggested by unchanged pyruvate carboxylase Vmax and a fourfold higher release of malate from isolated mitochondria. The FA-cultured islets also showed increased basal glucose usage and insulin secretion together with a lowered level of G-6-P and 50% reductions in citrate synthase Vmax and the citrate content. Thus, the effects of chronic FA exposure on islet glucose metabolism differ from the glucose-fatty acid interactions reported in some other tissues.
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PMID:Glucose-fatty acid cycle to inhibit glucose utilization and oxidation is not operative in fatty acid-cultured islets. 1048 Jun 4

We report a new type of fatal mitochondrial disorder caused by selective deficiency of mitochondrial ATP synthase (ATPase). A hypotrophic newborn from a consanguineous marriage presented severe lactic acidosis, cardiomegaly and hepatomegaly and died from heart failure after 2 days. The activity of oligomycin-sensitive ATPase was only 31-34% of the control, both in muscle and heart, but the activities of cytochrome c oxidase, citrate synthase and pyruvate dehydrogenase were normal. Electrophoretic and western blot analysis revealed selective reduction of ATPase complex but normal levels of the respiratory chain complexes I, III and IV. The same selective deficiency of ATPase was found in cultured skin fibroblasts which showed similar decreases in ATPase content, ATPase hydrolytic activity and level of substrate-dependent ATP synthesis (20-25, 18 and 29-33% of the control, respectively). Pulse-chase labelling of patient fibroblasts revealed low incorporation of [(35)S]methionine into assembled ATPase complexes, but increased incorporation into immunoprecipitated ATPase subunit beta, which had a very short half-life. In contrast, no difference was found in the size and subunit composition of the assembled and newly produced ATPase complex. Transmitochondrial cybrids prepared from enucleated fibroblasts of the patient and rho degrees cells derived from 143B. TK(-)human osteosarcoma cells fully restored the ATPase activity, ATP synthesis and ATPase content, when compared with control cybrids. Likewise, the pattern of [(35)S]methionine labelling of ATPase was found to be normal in patient cybrids. We conclude that the generalized deficiency of mitochondrial ATPase described is of nuclear origin and is caused by altered biosynthesis of the enzyme.
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PMID:A novel deficiency of mitochondrial ATPase of nuclear origin. 1048 64

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