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)

Dose/action and time/action relationships relative to the effect of the in vivo treatment with some biological molecules (cytidine, uridine and glutamine) on several enzymatic activities connected with cerebral metabolism (lactate dehydrogenase, malate dehydrogenase, total NADH cytochrome c reductase, cytochrome oxidase and citrate synthase) were studied in the normal rat brain. While time/action curves were found to be in agreement with classical pharmacodynamic descriptions, dose/action curves exhibited a varying behavior according to the biological substrate tested (brain homogenate in toto or crude mitochondrial fraction from brain in toto). Often enzymatic activity changes as a function of dose failed to show linear correlations, a parabolic pattern being observed. At any rate, the changes affecting several cerebral enzymatic activities may account for some pharmacodynamic properties of the biological molecules tested.
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PMID:Dose/action and time/action relationships of some biological molecules evaluated on the cerebral enzymatic activities. 745 24

The changes induced by alphaxalone-alphadolone (3:1) in the cerebral enzymatic activities of the Kreb's cycle (citrate synthase, malate dehydrogenase) and electron transfer chain (total NADH-cytochrome c reductase and cytochrome oxidase) were studied. In addition, the activation of lactate dehydrogenase (for the glycolytic pathway) and of acetylcholine esterase (as indicative of transmission) were investigated. These enzymatic activities were evaluated in the homogenate in toto and/or in the crude mitochondrial fraction of rat brain, since these enzymes are variously located in the cytoplasm. Two relationships were studied: a) dose/action (0.5, 1. 2, 4, 8, 16 and 32 mg . kg-1) by measurements carried out 60 min after i.p. administration; b) time/action (16 mg . kg-1 i.p.; measurements 15, 30, 60, 120 and 240 min after administration). The results show that in both kinds of trials alphaxalone-adphadolone reduced only the activity of the enzyme cytochrome oxidase evaluated on the brain homogenate in toto. More specifically, with regard to the dose/action relationship, the effect occurred starting with the dose of 2 mg . kg-1 and did not take place linearly with the higher ones. As to the time/action relationship, the effect began 60 min after administration, the changes being observed also at the subsequent times. The data obtained are discussed with regard to the interactions between alphaxalone -alphadolone and mitochondrial enzymatic systems, and compared with the effects of phenobarbital on the same systems.
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PMID:Effect of alphaxalone-alphadolone on some enzymatic activities from rat brain. 745 57

The energy metabolism was evaluated in gastrocnemius muscle from 3-month-old rats subjected to either mild or severe 4-week intermittent normobaric hypoxia. Furthermore, 4-week treatment with CNS-acting drugs, namely, alpha-adrenergic (delta-yohimbine), vasodilator (papaverine, pinacidil), or oxygen-increasing (almitrine) agents was performed. The muscular concentration of the following metabolites was evaluated: glycogen, glucose, glucose 6-phosphate, pyruvate, lactate, lactate-to-pyruvate ratio; citrate, alpha-ketoglutarate, succinate, malate; aspartate, glutamate, alanine; ammonia; ATP, ADP, AMP, creatine phosphate. Furthermore the Vmax of the following muscular enzymes was evaluated: hexokinase, phosphofructokinase, pyruvate kinase, lactate dehydrogenase; citrate synthase, malate dehydrogenase; total NADH cytochrome c reductase; cytochrome oxidase. The adaptation to chronic intermittent normobaric mild or severe hypoxia induced alterations of the components in the anaerobic glycolytic pathway [as supported by the increased activity of lactate dehydrogenase and/or hexokinase, resulting in the decreased glycolytic substrate concentration consistent with the increased lactate production and lactate-to-pyruvate ratio] and in the mitochondrial mechanism [as supported by the decreased activity of malate dehydrogenase and/or citrate synthase resulting in the decreased concentration of some key components in the tricarboxylic acid cycle]. The effect of the concomitant pharmacological treatment suggests that the action of CNS-acting drugs could be also related to their direct influence on the muscular biochemical mechanisms linked to energy transduction.
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PMID:Modifications by chronic intermittent hypoxia and drug treatment on skeletal muscle metabolism. 778 38

The expression of both mitochondrial and nuclear genes encoding enzymes involved in electron transport and oxidative phosphorylation was examined in bovine cardiac tissue during early growth, development and aging. The steady state level of mRNAs for mitochondrial genes including ATPase 6. COXII and cyt b increased 2.5-4-fold relative to early fetal levels in late fetal and young adult tissues and showed a marked decline (30-50%) in older adult tissues. Similar results were found with the nuclear genes, COXVB and ATP-beta synthase showing coordinate regulation of the two genomes. An increase in mtDNA copy number correlated with the increase in transcript level. Enzyme activity levels for NADH dehydrogenase and cytochrome c oxidase showed a similar trend, albeit of lesser magnitude. These activity levels contrasted with the activity level of an entirely nuclear-encoded mitochondrial enzyme, citrate synthase, which increased not only throughout development but in the older adult tissue. This study indicates that there is a pattern of increasing mitochondrial and nuclear gene expression for OXPHOS enzymes in developing cardiac tissue and decreasing OXPHOS gene expression in the aging heart.
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PMID:Mitochondrial gene expression during bovine cardiac growth and development. 779 43

The characteristics of the energy metabolism were evaluated in the gastrocnemius muscle from 3- and 24-month-old rats in normoxia or subjected to either mild or severe chronic (4 weeks) intermittent normobaric hypoxia. Furthermore, 4-week treatment with saline or the TRH-analogue posatireline was performed. The muscular concentration of the following metabolites related to the energy metabolism was evaluated: glycogen, glucose, glucose 6-phosphate, pyruvate, lactate, lactate-to-pyruvate ratio; citrate, alpha-ketoglutarate, succinate, malate; aspartate, glutamate, alanine; ammonia; ATP, ADP, AMP, creatine phosphate; energy charge potential. Furthermore the maximum rate of the following muscular enzymes was evaluated: hexokinase, phosphofructokinase, pyruvate kinase, lactate dehydrogenase; citrate synthase, malate dehydrogenase; total NADH cytochrome c reductase; cytochrome oxidase. The age-related decrease in muscular glucose 6-phosphate, pyruvate and alanine concentrations and increase in citrate concentration were consistent with the age-related decreased hexokinase and increased citrate synthase activities. Ageing was characterized by a decrease in muscular creatine phosphate concentration, while the energy mediators and the energy charge potential were unchanged. The chronic (4 weeks) intermittent normobaric mild and severe hypoxia-induced alterations of the components in the anaerobic glycolytic pathway, tricarboxylic acid cycle and energy storage, that were magnified in the skeletal muscle from the oldest animals. The effect of the chronic treatment with the TRH-analogue posatireline suggests that the action of central nervous system-acting drugs could also be related to their direct influence on the muscular biochemical mechanisms related to the energy transduction.
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PMID:Age-related alterations of skeletal muscle metabolism by intermittent hypoxia and TRH-analogue treatment. 781 45

Previous studies demonstrated that one of the most significant cellular responses of the rabbit urinary bladder to partial outlet obstruction is a 50% decrease in the activities of the mitochondrial enzymes citrate synthase and malate dehydrogenase, when calculated as either activity per unit mass or activity per mg protein. A major question arose from these studies: Are the mitochondrial enzyme activities per mitochondrion reduced, or is the number of mitochondria per unit tissue mass reduced? The current experiments were designed to study the sequential changes in the activities of mitochondrial oxidative enzymes following partial outlet obstruction. The activities of NADH-cytochrome c reductase (NCCR), cytochrome oxidase (CO), citrate synthase (CS) and malate dehydrogenase (MDH) were measured in whole tissue homogenates and in mitochondrial preparations of separated bladder mucosa and muscle, from normal bladders, and, from hypertrophied bladders at 1, 3, and 7 days following partial outlet obstruction. The results can be summarized as follows: 1) Whole tissue homogenates: Activities of all enzymes were reduced to approximately 50% of control at 1 day following partial outlet obstruction. NCCR and CO activities returned to 75 and 85% of control respectively by 7 days post-obstruction; CS activity did not show any significant recovery over the 7 day period. 2) Mucosal and smooth muscle mitochondrial preparations: Activities of all enzymes were decreased significantly by 50% or greater at 1 day following partial outlet obstruction. The cytochrome (NCCR and CO) enzyme activities returned to control levels by 7 days post-obstruction; CS activity showed only a minor recovery over this time period. These results show that mitochondrial enzyme activity is significantly impaired immediately following partial outlet outlet obstruction, and whereas the activity of the cytochrome enzymes NCCR and CO recover to control levels (in the mitochondrial preparations) within 7 days post obstruction, the Krebs cycle enzymes (CS and MD) show no significant recovery. Thus, the regulatory mechanisms for the cytochromes is significantly different from that for the enzymes of the krebs cycle.
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PMID:Alterations of mitochondrial oxidative metabolism in rabbit urinary bladder after partial outlet obstruction. 787 5

Non-synaptosomal and synaptosomal mitochondrial membrane-linked enzymatic activities, NADH-cytochrome c reductase rotenone insensitive (marker of the outer membrane) and cytochrome oxidase (marker of the inner membrane), were measured in rat brain hippocampus and striatum immediately after and 1, 4 and 7 days following the induction of complete transient ischemia (15 min) by the four vessel occlusion method. Furthermore citrate synthetase activity was measured with and without Triton X-100 in order to qualitatively evaluate the membrane permeability. Non-synaptosomal mitochondrial membranes showed reduction of both activities only in the late reperfusion phase: NADH-CCRRi decreased in striatal mitochondria after 4-7 days and only after 7 days in the hippocampus. COX activity decreased only in striatal mitochondria 7 days after ischemia. Non-synaptosomal mitochondrial membrane permeability did not show changes. Synaptosomal mitochondria showed a decrease of NADH-CCRRi only at 7 days of reperfusion both in hippocampus and striatum, while COX activity decreased only during ischemia and returned to normal levels in the following days in the two areas considered. In summary, free mitochondria showed insensitiveness to ischemia but they resulted damaged in the late reperfusion phase, while mitochondria from the synaptic terminal showed ischemic damage, partially restored during reperfusion. The striatal mitochondria showed a major susceptibility to ischemia/reperfusion damage, showing changes earlier than the hippocampal ones.
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PMID:Changes in non-synaptosomal and synaptosomal mitochondrial membrane-linked enzymatic activities after transient cerebral ischemia. 787 28

We isolated and characterized mutants defective in nuo, encoding NADH dehydrogenase I, the multisubunit complex homologous to eucaryotic mitochondrial complex I. By Southern hybridization and/or sequence analysis, we characterized three distinct mutations: a polar insertion designated nuoG::Tn10-1, a nonpolar insertion designated nuoF::Km-1, and a large deletion designated delta(nuoFGHIJKL)-1. Cells carrying any of these three mutations exhibited identical phenotypes. Each mutant exhibited reduced NADH oxidase activity, grew poorly on minimal salts medium containing acetate as the sole carbon source, and failed to produce the inner, L-aspartate chemotactic band on tryptone swarm plates. During exponential growth in tryptone broth, nuo mutants grew as rapidly as wild-type cells and excreted similar amounts of acetate into the medium. As they began the transition to stationary phase, in contrast to wild-type cells, the mutant cells abruptly slowed their growth and continued to excrete acetate. The growth defect was entirely suppressed by L-serine or D-pyruvate, partially suppressed by alpha-ketoglutarate or acetate, and not suppressed by L-aspartate or L-glutamate. We extended these studies, analyzing the sequential consumption of amino acids by both wild-type and nuo mutant cells growing in tryptone broth. During the lag and exponential phases, both wild-type and mutant cells consumed, in order, L-serine and L-aspartate. As they began the transition to stationary phase, both cell types consumed L-tryptophan. Whereas wild-type cells then consumed L-glutamate, glycine, L-threonine, and L-alanine, mutant cells utilized these amino acids poorly. We propose that cells defective for NADH dehydrogenase I exhibit all these phenotypes, because large NADH/NAD+ ratios inhibit certain tricarboxylic acid cycle enzymes, e.g., citrate synthase and malate dehydrogenase.
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PMID:Mutations in NADH:ubiquinone oxidoreductase of Escherichia coli affect growth on mixed amino acids. 815 82

The activities of enzymes related to energy metabolism in the gastrocnemius and soleus muscles in young-adult (4 months), mature (12 months) and senescent (24 months) rats were compared after 72 h of continuous exposure to normobaric hypoxia or normoxia after alpha-adrenergic antagonist nicergoline or saline solution had been given intraperitoneally for 30 consecutive days. The maximum rates (Vmax) of the following enzyme activities in the crude extract and/or the mitochondrial fraction of each muscle specimen were evaluated: (1) for the anaerobic glycolytic pathway: hexokinase, phosphofructokinase, pyruvate kinase and lactate dehydrogenase; (2) for the tricarboxylic acid cycle; citrate synthase and malate dehydrogenase; (3) for the electron transfer chain; cytochrome oxidase; and (4) for the NAD+/NADH redox state: total NADH cytochrome c reductase. The significant differences between the enzyme activities at different ages or under different experimental conditions in the two tissue preparations of the two muscles were determined by ANOVA. MCA and ETA were used to evaluate the net effects of the experimental conditions. Ageing did not seem to affect the soleus and gastrocnemius muscles in the same way. Changes were seen only in the glycolytic pathway enzymes in the crude extract from the gastrocnemius muscle. In the soleus muscle changes in enzyme activities as a function of ageing were also found in the mitochondrial fraction. We also found that hypoxia caused greater changes in 12-month-old rats than in those of other ages (especially in the enzyme activities of the gastrocnemius muscle). Finally out data show that only in certain cases was the pharmacological treatment able to modify the influence of hypoxic conditions on the levels of enzyme activities, regardless of the age of animals.
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PMID:Effects of hypoxia on enzyme activities in skeletal muscle of rats of different ages. An attempt at pharmacological treatment. 873 89

We studied two diagnostic aspects of fatal infantile defects of the mitochondrial respiratory chain: the age dependence of muscle mitochondrial enzyme activities and the reliability of diagnosis from autopsy samples. In morphologically normal quadriceps muscle samples of 46 children between the ages of 3 days and 15 years, activities of complex I plus III (NADH:cytochrome c oxidoreductase) and complex II plus III (succinate:cytochrome c oxidoreductase) increased 2-fold during the first three years of life, while that of complex II (succinate dehydrogenase), complex IV (cytochrome c oxidase), and citrate synthase did not show significant correlation with age. We suggest that these changes are related to age and stress the importance of strictly age-matched controls when diagnosing a mitochondrial disease of early childhood. The value of autopsy samples in diagnostic studies was evaluated by comparing mitochondrial enzyme activities in quadriceps muscle from autopsies and from surgical biopsies. In quadriceps muscle mitochondria, all the enzyme activities studied remained stable for at least 3 h after death. Using age-matched controls and autopsy samples, we diagnosed a respiratory chain enzyme deficiency in two infants, and the defects were confirmed in cultured skin fibroblasts.
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PMID:Diagnosis of fatal infantile defects of the mitochondrial respiratory chain: age dependence and postmortem analysis of enzyme activities. 874 50


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