Gene/Protein Disease Symptom Drug Enzyme Compound
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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 conditions of treatment of human skeletal muscle fibers from M. vastus lateralis with saponin were optimized to achieve complete permeabilization of cell membrane at intact mitochondrial oxidative phosphorylation. After 30 min of incubation with saponin all lactate dehydrogenase, 50% of creatine kinase, 30% of adenylate kinase and less than 20% of citrate synthase was released into the permeabilization medium. These skinned fibers behave similar to isolated mitochondria from human skeletal muscle: (i) the respiration with mitochondrial substrates can be stimulated by ADP, (ii) inhibited by carboxyatractyloside and (iii) it is possible to detect fluorescence changes of mitochondrial NAD(P)H on additions of substrates, uncoupler and cyanide. From a comparison of rates of respiration per cytochrome aa3 content of isolated human skeletal muscle mitochondria and saponin-skinned muscle fibers it was possible to calculate that almost 85% of mitochondria in those fibers are accessible for the investigation of oxidative phosphorylation. As shown by the investigation of biopsy samples of two patients with undefined myopathies these fibers are a suitable object for the replacement of isolated mitochondria in the diagnosis of mitochondrial myopathies and encephalomyopathies.
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PMID:Functional characterization of mitochondrial oxidative phosphorylation in saponin-skinned human muscle fibers. 834 61

To investigate the effect of in vivo heart irradiation on myocardial energy metabolism, we measured myocardial adenosine nucleotide concentrations and mitochondrial oxygen consumption in left ventricular tissue of rats 0-16 months after local heart irradiation (20 Gy). At 24 h and 2 months no difference in myocardial adenosine nucleotide concentration was apparent between irradiated and control hearts. The total myocardial adenosine nucleotide concentrations in irradiated hearts compared to those of nonirradiated controls tended to be lower from 4 months onward. The rate of oxidative energy production (state 3 respiration) in irradiated hearts was significantly reduced compared with that of age-matched controls from 2 months onward. Moreover, as a result of aging, a time-dependent decrease in the rate of oxidative energy production was observed in both irradiated and control hearts (P < 0.001). The respiratory control index (RCI = oxygen consumption in state 3/oxygen consumption in state 4) in irradiated hearts was not different from the RCI measured in age-matched control animals. During the period of study the RCI diminished significantly with age in both groups (P < 0.005). The number of oxygen atoms used per molecule of ADP phosphorylated (P/O ratio) was not influenced by the irradiation. The P/O ratio for the NAD(+)-linked substrates remained unchanged at a value of about 3 during the period studied. At 6 months after irradiation activities of myocardial enzymes such as lactate dehydrogenase, creatine kinase, citrate synthase, and cytochrome c oxidase were reduced. The reduction in myocardial energy production and the changes in energy supplies provide a mechanism to explain impaired contractility after local heart irradiation.
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PMID:Effects of in vivo heart irradiation on myocardial energy metabolism in rats. 847 57

Mitochondrial creatine kinase (mtCK) activity has been measured in the mitochondria isolated from the muscle of 69 patients suspected of mitochondrial diseases. The isolated mitochondria did not contain significant amounts of the muscle isoform of creatine kinase, as checked by an immunoassay performed after electrophoretic separation of the various isoforms. Hence, the enzyme assay reliably represented the mtCK activity. Therefore, a simple measurement of CK activity in isolated mitochondria permitted the measurement of mtCK activity. An absence of mtCK activity in muscle was never observed. The lowest activities were not associated to defined mitochondrial diseases linked to defects of respiratory chain complexes or to defects of citric cycle enzymes. On the contrary, mtCK activity was significantly increased in the muscle of patients exhibiting ragged red fibers. This increase was generally associated to an increase of citrate synthase activity. Since ragged-red fibers and elevated mtCK activities were generally not found in children younger than 3 years, even in cases of characteristic oxidative phosphorylation deficiency, it is suggested that the increase in mtCK activity as well as the appearance of ragged-red fibers are not the first events which occur during the evolution of mitochondrial diseases but would rather be long-term secondary processes which slowly develop in deficient mitochondria.
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PMID:Variations of muscle mitochondrial creatine kinase activity in mitochondrial diseases. 867 52

A total of 300 female broiler chickens were reared from day-old to 10 d of age on the same starter diet. Then they were divided into five groups, receiving a control diet (Group 1) relatively rich in fat (14.3%) and unsaturated fatty acids (87.6%) and standardized with respect to vitamins and minerals, supplemented with 100 mg (Group 2) and 500 mg (Group 4) of RRR-alpha-,gamma-,delta-tocopheryl acetate/kg feed (40.6% alpha-, 41.1% gamma-, 18.3% delta-) or 100 mg (Group 3) and 500 mg (Group 5) all-rac-alpha-tocopheryl acetate/kg feed until slaughter at 6 wk of age. No differences between the supplemented groups were observed with respect to weight gain, feed consumption, packed cell volume (PCV), plasma enzyme activities of creatine kinase (CK) and glutathione peroxidase (GSH-Px), fatty acid composition, and enzyme activities of citrate synthase (CS), and total lactate dehydrogenase (LDH), and 3-OH-acyl-coenzyme A-dehydrogenase (HAD) of breast (Pectoralis major) and thigh (Gastrocnemius interna) muscle. Increasing levels of alpha-, gamma-, and delta-tocopherol were found in blood plasma with increasing dietary levels of these tocopherols. Only alpha-tocopherol was detectable in skeletal muscle and in higher concentrations in thigh than in breast muscle. Hemolysis in vitro and plasma activity of aspartate aminotransferase (ASAT) were lower (P < .01) in Groups 2 and 4 than in Groups 3 and 5. Interactions were observed between dietary type and concentration of tocopherols for plasma CK, GSH-Px, Na+, and K+. No measurable excretion of ethane and pentane was observed in any of the groups. The findings indicate that the oxidative stress in the live animals was minimal. The mixture of natural source RRR-alpha-,gamma-,delta-tocopherols was as efficient in protecting the live chickens as the all-rac-alpha-tocopheryl acetate, when provided on a weight basis as judged from the chosen in vivo parameters of vitamin E status.
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PMID:Supplementation of broiler diets with all-rac-alpha- or a mixture of natural source RRR-alpha-,gamma-,delta-tocopheryl acetate. 1. effect on vitamin E status of broilers in vivo and at slaughter. 882 89

Changes in the capacities of ATP-synthesizing reactions were analysed in residual non-infarcted myocardium following myocardial infarction. Rats were subjected to left coronary artery ligation (MI; n = 11) or to sham operation (sham; n = 18). Two months later, hearts were excised, rinsed and buffer-perfused isovolumically. In vitro pressure-volume relationships were recorded. After separation into left and right ventricles (LV, RV) and atria (LA, RA), samples were analysed for citrate synthase, glycolytic enzymes (phosphofructokinase, glyceraldehyde-3-phosphate-dehydrogenase, lactate dehydrogenase (LDH) and its isoforms) and the creatine kinase (CK) system [total CK, CK isoenzymes (CKBB, CKMB, CKMM and CKmito) and total creatine]. In residual intact heart, citrate synthase activity and activities of most glycolytic enzymes were unchanged, but LDH activity and anaerobic LDH isoenzymes increased significantly. Total creatine kinae activity (6.5 +/- 0.2 IU/mg protein in sham LV) was decreased by chronic myocardial infarction in LV (5.4 +/- 0.3, with P < 0.05 sham v MI) but not in RV (6.2 +/- 0.2). Significant CK isoenzyme shifts occurred in both ventricles "adult" CKmito (32.5 +/- 1.4% in sham LV) was reduced in LV (22.1 +/- 2.1% with P < 0.05 sham v MI) and in RV (19.2 +/- 2.9%, with P < 0.05 sham v MI), "fetal" CKBB and CKMB increased. Total creatine content was reduced by up to 35% in both ventricles. In sham hearts atria had lower total and mitochondrial CK activity, lower total creatine content and higher CKMB and CKBB activity compared to ventricles; however, myocardial infarction induced changes directionally comparable to the changes observed in ventricles. Thus, 2 months after myocardial infarction changes of the capacities of ATP synthesizing reactions are comparable for all heart chambers, with the exception of total CK activity decreasing only in left ventricular tissue.
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PMID:Regional biochemical remodeling in non-infarcted tissue of rat heart post-myocardial infarction. 884 40

To evaluate the resistance of physiologically hypertrophied hearts to hypoxic insult, we quantified the development of functional deficits during hypoxia and reoxygenation in hypertrophied hearts from swim-trained female rats and we correlated this with assessment of high-energy phosphate (HEP) metabolites from simultaneous 31P nuclear magnetic resonance (NMR) measurements. Furthermore, in vivo enzymatic studies were carried out with saturation transfer NMR under well-oxygenated perfusion conditions for both beating and KCl-arrested hearts. Finally, in vitro enzymatic assays were performed. During hypoxia, the trained hearts exhibited improved systolic and diastolic function compared with hearts from sedentary animals. After 16 min of hypoxia, left ventricular (LV) developed pressure fell to 9% of baseline in control hearts but to only 21% of baseline in trained hearts (P < 0.01). LV diastolic function was also improved by training, increasing during hypoxia from a baseline of 10 to 71.0 +/- 3.3 mmHg in control hearts and to 55.3 +/- 4.8 mmHg in trained hearts (P < 0.05). Trained hearts also showed more rapid and complete recovery of function during reoxygenation and greater coronary flow per gram of heart throughout the entire protocol. Functional differences were not accompanied by differences in HEP at baseline; moreover, ATP and phosphocreatine (PCr) loss during hypoxia was similar between control and trained hearts, as was the recovery of PCr during reoxygenation. Saturation transfer experiments showed an increase in the forward creatine kinase (CrK) rate constant in trained hearts of 18% while beating, whereas in vitro enzymatic analysis revealed a 16% increase in the ratio of mitochondrial CrK to citrate synthase activity in LV tissue. Thus the relative preservation of function in hearts from trained rats could not be accounted for by overall HEP levels but may reflect adaptations in the CrK system.
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PMID:Function and bioenergetics in isolated perfused trained rat hearts. 903 63

The insulin resistance of skeletal muscle in glucose-tolerant obese individuals is associated with reduced activity of oxidative enzymes and a disproportionate increase in activity of glycolytic enzymes. Because non-insulin-dependent diabetes mellitus (NIDDM) is a disorder characterized by even more severe insulin resistance of skeletal muscle and because many individuals with NIDDM are obese, the present study was undertaken to examine whether decreased oxidative and increased glycolytic enzyme activities are also present in NIDDM. Percutaneous biopsy of vatus lateralis muscle was obtained in eight lean (L) and eight obese (O) nondiabetic subjects and in eight obese NIDDM subjects and was assayed for marker enzymes of the glycolytic [phosphofructokinase, glyceraldehyde phosphate dehydrogenase, hexokinase (HK)] and oxidative pathways [citrate synthase (CS), cytochrome-c oxidase], as well as for a glycogenolytic enzyme (glycogen phosphorylase) and a marker of anaerobic ATP resynthesis (creatine kinase). Insulin sensitivity was measured by using the euglycemic clamp technique. Activity for glycolytic enzymes (phosphofructokinase, glyceraldehye phosphate dehydrogenase, HK) was highest in subjects with subjects with NIDDM, following the order of NIDDM > O > L, whereas maximum velocity for oxidative enzymes (CS, cytochrome-c oxidase) was lowest in subjects with NIDDM. The ratio between glycolytic and oxidative enzyme activities within skeletal muscle correlated negatively with insulin sensitivity. The HK/CS ratio had the strongest correlation (r = -0.60, P < 0.01) with insulin sensitivity. In summary, an imbalance between glycolytic and oxidative enzyme capacities is present in NIDDM subjects and is more severe than in obese or lean glucose-tolerant subjects. The altered ratio between glycolytic and oxidative enzyme activities found in skeletal muscle of individuals with NIDDM suggests that a dysregulation between mitochondrial oxidative capacity and capacity for glycolysis is an important component of the expression of insulin resistance.
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PMID:Altered glycolytic and oxidative capacities of skeletal muscle contribute to insulin resistance in NIDDM. 921 60

The effect of sprint training and detraining on supramaximal performances was studied in relation to muscle enzyme adaptations in eight students trained four times a week for 9 weeks on a cycle ergometer. The subjects were tested for peak oxygen uptake (VO2peak), maximal aerobic power (MAP) and maximal short-term power output (Wmax) before and after training and after 7 weeks of detraining. During these periods, biopsies were taken from vastus lateralis muscle for the determination of creatine kinase (CK), adenylate kinase (AK), glycogen phosphorylase (PHOS), hexokinase (HK), phosphofructokinase (PFK), lactate dehydrogenase (LDH) and its isozymes, 3-hydroxy-acyl-CoA dehydrogenase (HAD) and citrate synthase (CS) activities. Training induced large improvements in Wmax (28%) with slight increases (3%) in VO2peak (P < 0.10). This was associated with a greater glycolytic potential as shown by higher activities for PHOS (9%), PFK (17%) and LDH (31%) after training, without changes in CK and oxidative markers (CS and HAD). Detraining induced significant decreases in VO2peak (4%), MAP (5%) and oxidative markers (10-16%), while Wmax and the anaerobic potential were maintained at a high level. This suggests a high level in supramaximal power output as a result of a muscle glycogenolytic and glycolytic adaptation. A long interruption in training has negligible effects on short-sprint ability and muscle anaerobic potential. On the other hand, a persistent training stimulus is required to maintain high aerobic capacity and muscle oxidative potential. This may contribute to a rapid return to competitive fitness for sprinters and power athletes.
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PMID:Enzyme adaptations of human skeletal muscle during bicycle short-sprint training and detraining. 942 50

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

A new two-step procedure of protein refolding in vitro, proposed by Rozema and Gellman and named artificial chaperone-assisted refolding, is discussed. The new approach has been inspired by the two-step mechanism of the GroE system. In the first step, the protein is captured by a detergent under conditions that would normally lead to irreversible protein aggregation (heating or denaturant removal). In the second step, removal of detergent from the protein--detergent complex is triggered by addition of a cyclodextrin which is capable of forming "inclusion complexes" with detergent, allowing the protein to refold. The protein refolded with artificial chaperones (detergent and cyclodextrin) may be purified via a two-step protocol. After refolding was complete, the solution was passed through a 0. 22-micro(m) filter, to remove aggregated protein, and then through a M = 10 kD cutoff filter. The second filtration was intended to allow the low-molecular-weight artificial chaperones to pass, but to retain the refolded enzyme. The application of the above procedure for refolding of carbonic anhydrase B from human erythrocytes, hen egg white lysozyme, pig heart citrate synthase, and creatine kinase from rabbit skeletal muscles (MM isoenzyme) is discussed.
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PMID:Artificial chaperone-assisted refolding of proteins. 955 24


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